Nombre Completo (Apellidos y Nombres): Sobral, Hugo Martín Fecha de Actualización: marzo de 2014

CURRÍCULUM VITAE Centro de Ciencias Aplicadas y Desarrollo Tecnológico

1. DATOS PERSONALES

Nombre completo: Sobral, Hugo Martín

Domicilio particular completo: Luis Enrique Erro # 14, Col. Copilco El Alto, C.P. 04360, Coyoacán, México DF, México. Domicilio laboral completo: Centro de Ciencias Aplicadas y Desarrollo Tecnológico, UNAM; Circuito Exterior s/n, C.P. 04510, Ciudad Universitaria; México D.F., México. Teléfono(s), fax: (+5255) 5622-8602 ext 1177; (+5255) 5622-8651 Correo electrónico: [email protected] Página Electrónica de WEB http://www.cinstrum.unam.mx/grupos/laboratorio.jsp?id=19 Lugar y fecha de nacimiento: La Plata, Bs. As., Argentina, 11 de noviembre de 1967 Estado civil: Soltero Nacionalidad: Argentina Registro federal de causantes: SOHU671111658 Clave única de registro de población: SOXH671111HNEBXG07

2. FORMACIÓN ACADÉMICA

2.1 Licenciatura Licenciatura en Física, Universidad Nacional de La Plata, Argentina, Título de la Tesis: “Estudio Resuelto en Tiempo de la Emisión de un Láser Iónico de Xenón”, Director de Tesis: Jorge Tocho, 1994.

2.4 Doctorado Doctorado de la Facultad de Ciencias Exactas, Física, Universidad Nacional de La Plata, Argentina, 1995-1999; Título de la Tesis: “Mecanismos de excitación de la emisión láser en un plasma de xenón múltiplemente ionizado”, Director de Tesis: Mario Gallardo, Fecha de obtención del grado: 3 de mayo de 1999.

2.5 Posdoctorado Universidad Nacional Autónoma de México, Centro de Instrumentos, Laboratorio de Óptica Aplicada, Investigador responsable: Mayo Villagrán Muniz, Proyecto realizado: Diagnóstico de Plasmas Inducidos por Láser, julio de 1999 a diciembre de 2000.

1 Nombre Completo (Apellidos y Nombres): Sobral, Hugo Martín Fecha de Actualización: marzo de 2014 2.6 Estancias de investigación en instituciones académicas

Dr. George Morales, Laser Produced Plasma Flows and Jets at the UCLA-BAPSF, Universidad de California, Los Angeles, USA, 14 al 27 de noviembre de 2005.

Dr. George Morales, Laser Produced Plasma Flows and Jets at the UCLA-BAPSF, Universidad de California, Los Angeles, USA, 18 al 30 de septiembre de 2006.

Dr. Fausto Bredice, Espectroscopía de Rompimiento Inducida por Láser, Centro de Investigaciones Opticas, La Plata, Argentina, 30 de julio a 10 de agosto de 2007.

Dr. Arturo Robledo-Martínez, Diagnóstico óptico de plasmas inducidos por descargas eléctricas y su aplicación a la nitruración de aceros; estancia sabática en la Universidad Autónoma Metropolitana, Azcapotzalco, Mexico D.F., de 1 de enero a 31 de diciembre de 2008.

2.7 Otras instancias de formación académica tales como actualización y educación continua

-Cursos de postgrado cursados y rendidos: "Espectroscopía Atómica", dictado por el Dr. Jorge Reyna Almandos (1995); UNLP, Argentina. Calificación: 10 (diez). "Optica Activa y Adaptiva", dictado por el Dr. Mario Garavaglia (1996); UNLP, Argentina. Calificación: 10 (diez). "Espectroscopía Instrumental en la Región IR-vis-UV" dictado por el Dr. Jorge Reyna Almandos (1997); UNLP, Argentina. Calificación: 10 (diez). “Difracción y Formación de Imágenes”, dictado por los Dres. Roberto Torroba y Marcelo Trivi, (1997) UNLP, Argentina. Calificación: 10 (diez). “Introducción a la Filosofía Exacta de La Ciencia”, dictado por el Dr. Hector Vucetich, (1997), UNLP, Argentina. Calificación: 10 (diez).

-Cursos de postgrado cursados: "El Desarrollo de la Ciencia Moderna", dictado por el Dr. Guillermo Boido (1995); UNLP, Argentina.

2.8 Idiomas

Inglés: habla, lee, escribe.

2 Nombre Completo (Apellidos y Nombres): Sobral, Hugo Martín Fecha de Actualización: marzo de 2014 Alemán: habla, lee, escribe. Francés: habla, lee.

3. EXPERIENCIA LABORAL (Incluyendo CARGOS ACADÉMICO-ADMINISTRATIVOS)

- Investigador Titular “B” de “T.C.” Definitivo, desde el 15 de febrero de 2006 hasta el presente. - Jefe del Laboratorio de Fotofísica (CCADET-UNAM), desde julio de 2005 hasta el 13 de octubre de 2006. - Miembro de la subcomisión de PASPA del CCADET desde agosto de 2011 a la actualidad. - Representante del director ante el pleno del comité académico del posgrado en Ciencias Físicas, año 2006; miembro del “subcomité de tutores” del posgrado en Ciencias Físicas, año 2006. - Representante propietario ante el pleno del comité académico del posgrado en Ciencias Físicas, desde septiembre 2006 a noviembre de 2009; miembro del “subcomité de alumnos” del posgrado en Ciencias Físicas. - Investigador Titular “A” de “T.C.” Definitivo, desde el 22 de abril de 2005. - Investigador Titular “A” de “T.C.” Interino (por concurso de oposición abierto), desde el 2 de abril de 2004. - Investigador Titular “A” de “T.C.” por “Artículo 51” desde el 1 de enero de 2003 hasta el 1 de abril de 2004, UNAM, CCADET, Laboratorio de Fotofísica. - Investigador Asociado “C” de “T.C.” por contrato desde el 1 de enero de 2001 a 31 de diciembre de 2002, UNAM, CCADET, Laboratorio de Fotofísica.

1. PRODUCCIÓN CIENTÍFICA Y TÉCNICA Y DESARROLLOS TECNOLÓGICOS

4.1 Artículos en revistas con arbitraje de circulación internacional (citas, excluyendo autocitas)

55 Characterization of Multi-layer Thin Films of C60 with tetraphenylporphyrin, E. Martinez-Loran, E Alvarez-Zauco, H. Sobral, enviado a Organic Electronics.

54 A Robledo-Martinez, H. Sobral, Laboratory simulation of stratospheric and mesospheric discharges, enviado a Plasma Sources Science and Technology.

52 H. Sobral, R. Sanginés*, Comparison of plasma parameters and line emissions of laser-induced plasmas of an aluminum target using single and orthogonal double nanosecond/picosecond pulses, Spectrochimica Acta B, vol 94-95 pp 1-6.

3 Nombre Completo (Apellidos y Nombres): Sobral, Hugo Martín Fecha de Actualización: marzo de 2014 53 C. Márquez*, H. Sobral, 2013, Characterization of binary silver based alloys by nanosecond infrared laser ablation inductively coupled plasma-optical emission spectrometer, Physica Scripta, vol 88, art 055602, 6 pág.

50 R. Sanginés*, H. Sobral, 2013, Time resolved study of the emission enhancement mechanisms in orthogonal double-pulse LIBS, Spectrochimica Acta B,vol 88, pp 150- 155.

49 H. Sobral, R. Sanginés*, A. Trujillo-Vázquez*, 2012 Detection of trace elements in ice and water by laser-induced breakdown spectroscopy, Spectrochimica Acta B, vol. 78 pp. 62-66. 1An assessment of the applicability of the use of a plasticised PVC membrane containing pyrochatecol violet complexing reagent for the determination of Cu2 + ions in aqueous solutions by LIBS, Klécia M. Santosa, Juliana Corteza, Ivo M. Raimundo J Celio Pasquinia, Elane S. Boa Morteb, Maria Graças A. Kornb, Microchemical Journal, Volume 110, September 2013, Pages 435–438 2 Study on Laser-Induced Gas Plasma Using TEA CO2 Laser for Atomic Emission Spectroscopy, K Ali, tesis de doctorado, Kujui, Japón,http://repo.flib.ukui.ac.jp/dspace/bitstream/10098/7594/1/%E5%8D%9A%E5%A3%AB%E8%AB%96%E6%96%87%EF%B C%88%E3%82%A2%E3%83%AA%E3%80%80%E3%82%AF%E3%83%9E%E3%82%A8%E3%83%8B%EF%BC%89.pdf

48 A. Robledo-Martínez, H. Sobral, A. Ruiz-Meza, 2012 “Electrical discharges as a possible source of methane on Mars: lab simulation”, Geophys. Res. Lett., vol 39, L17202, pp1-5, doi: 10.1029/2012GL053255.

47 R. Sanginés*, H. Sobral, E. Alvarez-Zauco, 2012 “Emission intensification in laser produced plasmas onto preheated targets” Applied Physics B, vol 108 pp. 867-873, DOI 10.1007/s00340-012-5130-6.

46 R. Sanginés*, H. Sobral, E. Alvarez-Zauco, 2012, The effect of sample temperature on the emission line intensification mechanisms in orthogonal double-pulse LIBS, Spectrochimica Acta Part B: Atomic Spectrometry, vol 68, pp. 40-45. 1 Double-pulse and calibration-free laser-induced breakdown spectroscopy at low-ablative energies, Contreras, V.; Meneses- Nava, M. A.; Barbosa-Garcia, O.; et al., OPTICS LETTERS Volume: 37 ages: 4591-4593, 2012 2 Laser-Induced Breakdown Spectroscopy, Author(s): Fortes, Francisco J.; Moros, Javier; Lucena, Patricia; et al. Source: ANALYTICAL CHEMISTRY Volume: 85 Issue: 2 Special Issue: SI Pages: 640-669 DOI: 10.1021/ac303220r Published: JAN 15 2013 3. Eschlböck-Fuchs, S., et al. "Influence of sample temperature on the expansion dynamics and the optical emission of laser- induced plasma." Spectrochimica Acta Part B: Atomic Spectroscopy (2013 Volume 87, Pages 36–42

45 R. Sanginés* y H. Sobral, 2011 “Two-color interferometry and shadowgraphy characterization of an orthogonal double pulse laser ablation”, Journal of Applied Physics, vol 110, art. 033301, 6 pp. 1 A comparative spectroscopic study of single and dual pulse laser produced UV tin plasmas, Khalil, Ahmed A. I. OPTICS AND LASER TECHNOLOGY Volume: 45 Pages: 443-452 DOI: 10.1016/j.optlastec.2012.06.011, 2013 2 Khalil, A. A. I. "Spectroscopic studies of UV lead plasmas produced by single and double-pulse laser excitation." Laser Physics 23.1 (2013): 015701. 3 Register, Janna, Jonathan Scaffidi, and S. Michael Angel. "Direct Measurements of Sample Heating by a Laser-Induced Air Plasma in Pre-Ablation Spark Dual-Pulse Laser-Induced Breakdown Spectroscopy (LIBS)." Applied Spectroscopy 66.8 (2012): 869-874.

4 Nombre Completo (Apellidos y Nombres): Sobral, Hugo Martín Fecha de Actualización: marzo de 2014 44 H. Sobral, C. Sánchez-Aké, R. Sangines*, E. Alvarez Zauco, K. Jiménez-Durán, 2011, Photoacoustic and spectroscopic characterization of the ablation process in orthogonal double-pulse configuration, Journal of Physics D: Applied Physics, vol 44 artículo 085201 (7pp), doi.org/10.1088/0022-3727/44/8/085201

43 A. Robledo-Martinez, H. Sobral and A. Ruiz-Meza, 2011 “Space-charge effects and arc properties of simulated lightning on Venus”, Journal of Geophysical Research - Space Physics, vol. 116, http://dx.doi.org/10.1029/2010JA015856, artículo A06313, 9 pp. 1 New results on planetary lightning, Yair, Yoav ADVANCES IN SPACE RESEARCH, 50, 293-310 DOI: 10.1016/j.asr.2012.04.013 2012 2 Delory, Gregory T. "Problems and New Directions for Elec-trostatics Research in the Context of Space and Planetary Science, Proc. 2012 Joint Electrostatics Conference, 17 pp.

42 A. Robledo-Martinez, H. Sobral A. Ruiz-Meza, H. Granados, 2010 “Effect of the pressure on the properties of an impulse arc in CO2”, IEEE Transactions on Dielectrics and Electrical Insulation; vol 17 N 5, pp 1536 - 1542

41 A. Robledo-Martinez, H. Sobral and A. Ruiz-Meza, 2009, Measurement of the temperature and the resistivity of an impulse arc in variable-pressure CO2, Journal of Physics D: Applied Physics, vol 42, art 235207 (6 pp)

40 F Bredice, H Di Rocco, HM Sobral, M Villagrán-Muniz y V Palleschi, 2010 “A New Method for Determination of Self-Absorption Coefficients of Emission Lines in Laser- Induced Breakdown Spectroscopy Experiments”, Applied Spectroscopy, vol 64 N 3, pp 320-323. 1. Advances in atomic spectrometry and related techniques, Evans E. Hywel; Day Jason A.; Palmer Christopher D.; et al. JOURNAL OF ANALYTICAL ATOMIC SPECTROMETRY Volume: 26 Issue: 6 Pages: 1115-1141 DOI: 10.1039/c1ja90020j Published: 2011 2. The Calculation of the Optical Depths of Homogeneous Plasmas: Analytical, Experimental, and Numerical Considerations, Di Rocco Hector O.; Bredice Fausto; Palleschi Vincenzo, APPLIED SPECTROSCOPY Volume: 65 Issue: 10 Pages: 1213-1217 DOI: 10.1366/11-06335 Published: OCT 2011 3. Laser-Induced Breakdown Spectroscopy (LIBS), Part II: Review of Instrumental and Methodological Approaches to Material Analysis and Applications to Different Fields Author(s): Hahn, David W.; Omenetto, Nicolo Source: APPLIED SPECTROSCOPY Volume: 66 Issue: 4 Pages: 347-419 DOI: 10.1366/11-06574 Published: APR 2012 4. Study of Self-Absorption of Emission Magnesium Lines in Laser-Induced Plasmas on Calcium Hydroxide Matrix Author(s): Diaz Pace, Diego M.; D'Angelo, Cristian A.; Bertuccelli, Graciela Source: IEEE TRANSACTIONS ON PLASMA SCIENCE Volume: 40 Issue: 3 Pages: 898-908 DOI: 10.1109/TPS.2011.2181875 Part: Part 2 Published: MAR 2012 5. Une évaluation des performances analytiques de la spectroscopie sur plasma induit par laser (LIBS) Ismaël, A. (2011). (Doctoral dissertation, Université de Pau et des Pays de l’Adour). 6. Díaz Pace, Diego M. "Laser–induced plasma characterization using line profile analysis of Cromium neutral atom and ion transitions." Journal of Quantitative Spectroscopy and Radiative Transfer (2013). 7. Bredice, F., Borges, F. O., Di Rocco, H. O., Mercado, R. S., Villagrán-Muniz, M., & Palleschi, V. (2013). A Procedure for Estimating the Electron Temperatureand the Departure of the LTE Condition in a Time-Dependent, Spatially Homogeneous, Optically Thin Plasma. Brazilian Journal of Physics, 1-8.

39 C. Torres-Torres, M. Trejo-Valdez, H. Sobral, P. Santiago-Jacinto, and J. A. Reyes- Esqueda, 2009, “Stimulated emission and optical third order nonlinearity in Li-doped ZnO nanorods” The Journal of Physical Chemistry C, vol 113, pp. 13515-13521. 1. Ablation and optical third-order nonlinearities in Ag nanoparticles, Torres-Torres C, Perea-Lopez N, Reyes-Esqueda JA, et al., INTERNATIONAL JOURNAL OF NANOMEDICINE Volume: 5 Pages: 925-932 2010

5 Nombre Completo (Apellidos y Nombres): Sobral, Hugo Martín Fecha de Actualización: marzo de 2014

2. Contribution of the Two-Photon Absorption to the Third Order Nonlinearity of Au Nanoparticles Embedded in TiO2 Films and in Ethanol Suspension, Trejo-Valdez M, Torres-Martinez R, Perea-Lopez N, et al.,JOURNAL OF PHYSICAL CHEMISTRY C Volume: 114 Pages: 10108-10113 JUN 10 2010 3 Enhancement of the optical Kerr effect exhibited by an integrated configuration of silicon quantum dots and silver nanoparticles A López-Suárez1, Rangel-Rojo R2, C Torres-Torres et AL, J. Phys.: Conf. Ser. 274 012145 doi: 10.1088/1742-6596/274/1/012145 4 Anisotropic linear and nonlinear optical properties from anisotropy-controlled metallic nanocomposites Jorge Alejandro Reyes- Esqueda, Vladimir Rodríguez-Iglesias, Héctor-Gabriel Silva-Pereyra et al Optics Express, Vol. 17, Issue 15, pp. 12849-12868 (2009) doi:10.1364/OE.17.012849 5 Inhibition of the two-photon absorption response exhibited by a bilayer TiO2 film with embedded Au nanoparticles D. Torres- Torres, M. Trejo-Valdez, L. Castañeda, et al, Optics Express, Vol. 18, Issue 16, pp. 16406-16417 (2010) 6 Molecular Gastronomy and Multiphoton Interactions with Gold Nanoparticles Heating Olive Oil, C Torres-Torres, M Trejo-Valdez et al, Tecnplog@ vol 2 ene-abr/2009 2007 CICATA-Querétaro-IPN 7 Ultrafast nonlinear optical response of photoconductive ZnO films with fluorine nanoparticles, Torres-Torres C.; Castro-Chacon J. H.; Castaneda L.; et al.,OPTICS EXPRESS Volume: 19 Issue: 17 Pages: 16346-16355 Published: AUG 15 2011 8 Ultrafast optical phase modulation with metallic nanoparticles in ion-implanted bilayer silica, Torres-Torres C.; Tamayo-Rivera L.; Rangel-Rojo R.; et al. NANOTECHNOLOGY Volume: 22 Issue: 35 Article Number: Published: SEP 2 2011 9 Mechanical design and manufacture by powder technology of a new mandrel tool for the fabrication of assault rifle barrels Author(s): Urriolagoitia-Calderon, G.; Urriolagoitia-Sosa, G.; Verduzco-Cedeno, V. F.; et al. Source: POWDER TECHNOLOGY Volume: 224 Pages: 76-85 DOI: 10.1016/j.powtec.2012.02.031 Published: JUL 2012 10 Physical origin of third order non-linear optical response of porphyrin nanorods Author(s): Mongwaketsi, N.; Khamlich, S.; Pranaitis, M.; et al. Source: MATERIALS CHEMISTRY AND PHYSICS Volume: 134 Issue: 2-3 Pages: 646-650 DOI: 10.1016/j.matchemphys.2012.03.044 Published: JUN 15 2012 11Room-Temperature Laser Emission of ZnO Nanowires Explained by Many-Body Theory Author(s): Versteegh, Marijn A. M.; Vanmaekelbergh, Daniel; Dijkhuis, Jaap I. Source: PHYSICAL REVIEW LETTERS Volume: 108 Issue: 15 Article Number: 157402 DOI: 10.1103/PhysRevLett.108.157402 Published: APR 12 2012 12 Photoconductivity, photoluminescence and optical Kerr nonlinear effects in zinc oxide films containing chromium nanoclusters Author(s): Torres-Torres, C.; Garcia-Cruz, M. L.; Castaneda, L.; et al. Source: JOURNAL OF LUMINESCENCE Volume: 132 Issue: 4 Pages: 1083-1088 DOI: 10.1016/j.jlumin.2011.12.013 Published: APR 2012 13 Participation of the Third Order Optical Nonlinearities in Nanostructured Silver Doped Zinc Oxide Thin Solid Films, Torres- Torres, C.; Castaneda, L.; Trejo-Valdez, M.; et al. JOURNAL OF NANOMATERIALS Article Number: 353061 DOI: 10.1155/2012/353061 2012 14 Factors Affecting Laser-Excited Photoluminescence from ZnO Nanostructures Das, Barun; Kumar, Prashant; Rao, C. N. R. JOURNAL OF CLUSTER SCIENCE Volume: 23 Pages: 649-659 DOI: 10.1007/s10876-012-0453-3 2012

38 M. Trejo, P. Santiago, H. Sobral, L. Rendón y U. Pal, 2009 “Synthesis and growth mechanism of One-dimensional Zn/ZnO Core-Shell Nanostructures in Low- temperature Hydrothermal Process”, Crystal Growth & Design, vol 9 N 7, pp 3024- 3030. 1 : Facile One-Pot Synthesis of Metal-Semiconductor Hybrid Nanocrystals via Chemical Transformation: The Case of Cu-CuxS Heterodimers and Hetero-Oligomers Liu YL, Walker ARH JOURNAL OF PHYSICAL CHEMISTRY C Volume: 114 Issue: 10 Pages: 4264-4271 Published: MAR 18 2010 2 Influence of the Counterion on the Synthesis of ZnO Mesocrystals under Solvothermal Conditions Author(s): Distaso M, Taylor RNK, Taccardi N, et al. CHEMISTRY-A EUROPEAN JOURNAL Volume: 17 Issue: 10 Pages: 2923-2930 MAR 2011 3 Metal/oxide interfaces in inorganic nanosystems: what's going on and what's next? Barreca D, Gasparotto A, Tondello E JOURNAL OF MATERIALS CHEMISTRY Volume: 21 Issue: 6 Pages: 1648-1654 Published: 2011 4 Effect of Pr doping on the structural and optical properties of ZnO nanorods, Ilanchezhiyan P, Kumar GM, Subramanian M, et al. MATERIALS SCIENCE AND ENGINEERING B-ADVANCED FUNCTIONAL SOLID-STATE MATERIALS Volume: 175 Issue: 3 Pages: 238-242 Published: DEC 15 2010 5 Fabrication and Characterization of Zn-ZnO Core-shell Gap Structure in Low-temperature Water-bath Process, Yang YQ, Du GH, Zhang XB, et al. JOURNAL OF INORGANIC MATERIALS Volume: 25 Issue: 7 Pages: 705-710 Published: JUL 2010 5 Influence of the Counterion on the Synthesis of ZnO Mesocrystals under Solvothermal Conditions, Distaso Monica; Taylor Robin N. Klupp; Taccardi Nicola; et al., CHEMISTRY-A EUROPEAN JOURNAL Volume: 17 Issue: 10 Pages: 2923-2930 DOI: 10.1002/chem.201002235 Published: MAR 2011 6 Solution-phase synthesis of metal and/or semiconductor homojunction/heterojunction nanomaterials, Feng Xiumei; Hu Guanqi; Hu Jianqiang, NANOSCALE Volume: 3 Issue: 5 Pages: 2099-2117 DOI: 10.1039/c1nr00004g Published: 2011 7 Catalyst-free combined synthesis of Zn/ZnO core/shell hollow microspheres and metallic Zn microparticles by thermal evaporation and condensation route, Khan Waheed S.; Cao Chuanbao; Nabi Ghulam; et al. JOURNAL OF ALLOYS AND COMPOUNDS Volume: 506 Issue: 2 Pages: 666-672 DOI: 10.1016/j.jallcom.2010.07.039 Published: SEP 17 2010 8 One-dimensional ZnO nanostructures: Solution growth and functional properties, Xu Sheng; Wang Zhong Lin,NANO RESEARCH Volume: 4 Issue: 11 Pages: 1013-1098 DOI: 10.1007/s12274-011-0160-7 Published: NOV 2011 9 A low temperature in situ facile technique to enhance ultraviolet emission of zinc oxide nanorods and its mechanistic insights Author(s): Sarkar S.; Basak D, CHEMICAL PHYSICS LETTERS Volume: 516 Issue: 4-6 Pages: 192-198 NOV 18 2011 6 Nombre Completo (Apellidos y Nombres): Sobral, Hugo Martín Fecha de Actualización: marzo de 2014

10 Nonpolar Solvothermal Fabrication and Electromagnetic Properties of Magnetic Fe3O4 Encapsulated Semimetal Bi Nanocomposites Author(s): Wang, Jiaheng; Wang, Han; Jiang, Jingjing; et al. Source: CRYSTAL GROWTH & DESIGN Volume: 12 Issue: 7 Pages: 3499-3504 DOI: 10.1021/cg300198r Published: JUL 2012 13 Multimetallic Alloy Nanotubes with Nanoporous Framework Author(s): Choi, Bu-Seo; Lee, Young Wook; Kang, Shin Wook; et al. Source: ACS NANO Volume: 6 Issue: 6 Pages: 5659-5667 DOI: 10.1021/nn301660x Published: JUN 2012 14 From ZnS nanoparticles, nanobelts, to nanotetrapods: the ethylenediamine modulated anisotropic growth of ZnS nanostructuresAuthor(s): Zhang, Yuanpeng; Liu, Wei; Wang, Rongming Source: NANOSCALE Volume: 4 Issue: 7 Pages: 2394-2399 DOI: 10.1039/c2nr11985d Published: 2012

37 A. Robledo-Martinez, H. Sobral, M. Villagran-Muniz, F. Bredice, 2008, Focusing of light by the ionized layer surrounding a laser-induced plasma in air, Physics of plasmas; vol 15, art. 093510, 9 pp.

36 M. Villagrán Muniz, H. Sobral, C. Rinaldi, I. Cabanillas-Vidosa, J. C. Ferrero, 2008, “Optical Emission and Energy Disposal Characterization in the Laser Ablation process of CaF2, BaF2, and NaCl at 1064 nm”, Journal of Applied Physics, vol 104, N 10, art. 103112, 7 pp. 1. Laser-Induced Breakdown Spectroscopy-Capabilities and Limitations, Cremers David A.; Chinni Rosemarie C., APPLIED SPECTROSCOPY REVIEWS Volume: 44 Issue: 6 Pages: 457-506 DOI: 10.1080/05704920903058755 Published: 2009 2. Generation of cavities in silicon wafers by laser ablation using silicon nitride as sacrificial layer Author(s): Lerner, B.; Perez, M. S.; Toro, C.; et al. Source: APPLIED SURFACE SCIENCE Volume: 258 Issue: 7 Pages: 2914-2919 DOI: 10.1016/j.apsusc.2011.11.007 Published: JAN 15 2012Times Cited: 0 (from All Databases) 3. Detecting Plasma Produced by Laser in a Micromachining System as In-process Control Author(s): Toro, Cinthya; Lasorsa, Carlos; Rinaldi, Carlos Source: JOURNAL OF LASER MICRO NANOENGINEERING Volume: 6 Issue: 3 Pages: 220-224 DOI: 10.2961/jlmn.2011.03.0009 Published: DEC 2011 4. Dependence of Cm on the composition of solid binary propellants in ablative laser propulsion. Rinaldi, C. A., Boggio, N. G., Rodriguez, D., Lamagna, A., Boselli, A., Manzano, F., ... & Azcárate, M. L. (2011). Applied Surface Science, 257(6), 2019-2023. 5. Toro, Cinthya, Carlos Lasorsa, and Carlos Rinaldi. "Detecting Plasma Produced by Laser in a Micromachining System as In-process Control." JOURNAL OF LASER MICRO NANOENGINEERING 6.3 (2011): 220-224.

35 H. Sobral y A. Robledo-Martínez, 2008, "Time Resolved Shadowgraphy of Electrical Discharges Triggered by Laser in Air", IEEE Transactions on Plasma Science, vol 36, pp. 1120-1121. 1 Nedanovska, E., et al. "Comparison of the electron density measurements using Thomson scattering and emission spectroscopy for laser induced breakdown in one atmosphere of helium." Applied Physics Letters 99.26 (2011): 261504-261504.

34 A. Robledo-Martinez, H. Sobral, and A. Ruiz-Meza, 2008 “Time-resolved diagnostic of an impulse discharge in variable pressure air”, Journal of physics D: Applied Physics, vol 41, art 175207 (9pp). 1 Plasma chemistry in repetitively pulsed discharges in air at low pressures Author(s): Pintassilgo, Carlos D. Conference: 30th International Conference on Phenomena in Ionized Gases Location: Belfast, NORTH IRELAND Date: AUG 28-SEP 02, 2011 Sponsor(s): Portuguese Fundacao Ciencia Tecnologia (FCT), Inst Plasmas Fusao Nucl-Lab Assoc Source: PLASMA SOURCES SCIENCE & TECHNOLOGY Volume: 21 Issue: 3 Article Number: 035020 DOI: 10.1088/0963-0252/21/3/035020 Published: JUN 2012

33 A. Robledo-Martinez, H. Sobral, and A. Ruiz-Meza, 2008, “Effect of Pressure in Fast-front Lightning Discharges in Air”, IEEE Transactions on Plasma Science, vol 36 pp. 948-949.

7 Nombre Completo (Apellidos y Nombres): Sobral, Hugo Martín Fecha de Actualización: marzo de 2014 32 H. Sobral, C.Sánchez-Aké*, M. Villagrán-Muniz, 2008, Intensity Enhancement in Cross-beam Pulsed Laser Ablation Using Two Orthogonal Targets, Spectrochimica Acta Part B: Atomic Spectroscopy, vol 63, pp 493-497. 1 Emission enhancement using two orthogonal targets in double pulse laser-induced breakdown spectroscopy Sanchez-Ake C, Bolanos M, Ramirez CZ SPECTROCHIMICA ACTA PART B-ATOMIC SPECTROSCOPY Volume: 64 Issue: 9 Pages: 857- 862 Published: SEP 2009 2 Analysis of two colliding laser-produced plasmas by emission spectroscopy and fast photography Sanchez-Ake C, Mustri-Trejo D, Garcia-Fernandez T, et al. SPECTROCHIMICA ACTA PART B-ATOMIC SPECTROSCOPY Volume: 65 Issue: 5 Pages: 401-408 Published: MAY 2010 3 Electric field-perturbation measurement of the interaction between two laser-induced plasmas Author(s): Sanchez-Ake, C.; Bredice, F.; Villagran-Muniz, M. Source: REVIEW OF SCIENTIFIC INSTRUMENTS Volume: 83 Issue: 2 Article Number: 023504 DOI: 10.1063/1.3683453 Part: Part 1 Published: FEB 2012 4 Bäuerle, Dieter, and Dieter Bäuerle. "Analysis of Species and Plasmas." Laser Processing and Chemistry (2011): 697-723.

31 R. Sanginés y H. Sobral, 2008, Laser Resonant Absorption Photography of Pulsed Laser Ablation on Iron Targets, IEEE Transactions on Plasma Science, vol 36,N 4, pp 1118-1119. 1 ). Dynamique d'expansion de la plume-plasma formée lors d'un impact laser Nd: YAG nanoseconde sur une surface métallique en milieu atmosphérique: caractérisation expérimentale et simulation numérique Cirisan, M. (2010 (Doctoral dissertation, Université de Bourgogne).

30 F. Bredice, H. Sobral , M. Villagran-Muniz, H.O. Di Rocco, G. Cristoforetti, S. Legnaioli, V. Palleschi, A. Salvetti, E Tognoni, 2007 “Real Time Measurement of the Electron Density of a Laser Generated Plasma using a RC Circuit”, Spectrochimica Acta Part B: Atomic Spectroscopy, 62 (8), p.836-840. 1 Analysis of Stark line profiles for non-equilibrium plasma diagnosis: Gonzalez MA, Gigosos MA 19th European Sectional Conference on Atomic and Molecular Physics of Ionized Gases, JUL 15-19, 2008 Granada, SPAIN Source: PLASMA SOURCES SCIENCE & TECHNOLOGY Volume: 18 Issue: 3 Article Number: 034001 Published: AUG 2009 2 A review of normalization techniques in analytical atomic spectrometry with laser sampling: From single to multivariate correction Author(s): Zorov NB, Gorbatenko AA, Labutin TA, et al. Conference Information: 5th Euro-Mediterranean Sympsoium on Laser Induced Breakdown Spectroscopy, SEP 28-OCT 01, 2009 Rome, ITALY SPECTROCHIMICA ACTA PART B-ATOMIC SPECTROSCOPY Volume: 65 Issue: 8 Special Issue: Sp. Iss. SI Pages: 642-657 Published: AUG 2010 3 12 J. Álvarez, P. Pacheco, R. Sarmiento, et al: Caracterización De Un Plasma-Láser En Aire Empleando Un Circuito RC, Revista Colombiana de Física, Vol. 43, No.1 de 2011. 4 Laser Plasma Generation in Liquids. Possible Perturbations of the Boundary Layer Dynamics in a Metallic Surface in a Cell Filled With Conducting Liquid, Bertuccelli Daniela; Ranea-Sandoval Hector F.; Espejo Viviana, IEEE TRANSACTIONS ON PLASMA SCIENCE Volume: 39 Issue: 7 Pages: 1631-1634 DOI: 10.1109/TPS.2011.2142328 Published: JUL 2011 5 A simplified spectrum standardization method for laser-induced breakdown spectroscopy measurements, Li Lizhi; Wang Zhe; Yuan Tingbi; et al. JOURNAL OF ANALYTICAL ATOMIC SPECTROMETRY Volume: 26 Pages: 2274-2280 Published: 2011 6 A spectrum standardization approach for laser-induced breakdown spectroscopy measurements Author(s): Wang, Zhe; Li, Lizhi; West, Logan; et al. Source: SPECTROCHIMICA ACTA PART B-ATOMIC SPECTROSCOPY Volume: 68 Pages: 58-64 DOI: 10.1016/j.sab.2012.01.005 Published: FEB 2012 7 Electric field-perturbation measurement of the interaction between two laser-induced plasmas Author(s): Sanchez-Ake, C.; Bredice, F.; Villagran-Muniz, M. Source: REVIEW OF SCIENTIFIC INSTRUMENTS Volume: 83 Issue: 2 Article Number: 023504 DOI: 10.1063/1.3683453 Part: Part 1 Published: FEB 2012 8 : On-Line Estimation of Laser-Drilled Hole Depth Using a Machine Vision Method Author(s): Ho, Chao-Ching; He, Jun-Jia; Liao, Te-Ying Source: SENSORS Volume: 12 Issue: 8 Pages: 10148-10162 DOI: 10.3390/s120810148 Published: AUG 2012 9 Cowpe, J. S. (2008). Optical Emission and Mass Spectrometric Diagnostics of Laser-Induced Silicon Plasmas (Doctoral dissertation, University of Salford). 10 Sun, Lan Xiang, et al. "Reducing Quantitative Fluctuation of Laser-Induced Breakdown Spectroscopy by Kalman Filtering." Applied Mechanics and Materials 333 (2013): 243-247. 11 Hou, Zongyu, et al. "Improving data stability and prediction accuracy in laser-induced breakdown spectroscopy by utilizing a combined atomic and ionic line algorithm." Journal of Analytical Atomic Spectrometry 28.1 (2013): 107-113. 12 Sarmiento, R., Bredice, F., Pacheco, P., & Álvarez, J. (2011). Caracterización De Un Plasma-Láser En Aire Empleando Un Circuito RC. Revista Colombiana de Física, 43(1), 40.

29 F. Bredice; F. Borges; H. Sobral; M. Villagran-Muniz; H. Di Rocco; G. Cristoforetti; S. Legnaioli, V. Palleschi; L. Pardini; A. Salvetti; E. Tognoni; 2007 “Measurement of

8 Nombre Completo (Apellidos y Nombres): Sobral, Hugo Martín Fecha de Actualización: marzo de 2014 Stark broadening of Mn I and Mn II spectral lines in plasmas used for Laser-Induced Breakdown Spectroscopy”; Spectrochimica Acta Part B: Atomic Spectroscopy, 62 (11), pp. 1237-1245 1 Semiempirical model for analysis of inhomogeneous optically thick laser-induced plasmas D'Angelo CA, Pace DMD, Bertuccelli G Conference Information: 5th International Conference on Laser-Induced Breakdown Spectroscopy, SEP 22-26, 2008 Berlin, GERMANYSource: SPECTROCHIMICA ACTA PART B-ATOMIC SPECTROSCOPY Volume: 64 Issue: 10 Special Issue: Sp. Iss. SI Pages: 999-1008 Published: OCT 2009 2 Atomic Spectrometry Update. Advances in atomic spectrometry and related techniques: Evans EH, Day JA, Palmer CD, et al. Source: JOURNAL OF ANALYTICAL ATOMIC SPECTROMETRY Volume: 24 Issue: 6 Pages: 711-733 Published: 2009 3 Stark width measurements of Fe II lines with wavelengths in the range 260-300 nm Aragon C, Vega P, Aguilera JA JOURNAL OF PHYSICS B-ATOMIC MOLECULAR AND OPTICAL PHYSICS Volume: 44 Issue: 5 Article Number: 055002 MAR 14 2011 4 Laser-Induced Breakdown Spectroscopy (LIBS), Part I: Review of Basic Diagnostics and Plasma-Particle Interactions: Still- Challenging Issues Within the Analytical Plasma Community Hahn DW, Omenetto NAPPLIED SPECTROSCOPY Volume: 64 Issue: 12 Pages: 335A-366A Published: DEC 2010 5 Spectroscopic diagnostics of laser-induced plasmas Konjevic N, Ivkovic M, Jovicevic S Conference Information: 5th Euro- Mediterranean Sympsoium on Laser Induced Breakdown Spectroscopy, SEP 28-OCT 01, 2009 Rome, ITALY SPECTROCHIMICA ACTA PART B-ATOMIC SPECTROSCOPY Volume: 65 Issue: 8 Special Issue: Sp. Iss. SI Pages: 593- 602 Published: AUG 2010 6 Experimental transition probabilities for several spectral lines arising from the 5d(10) 6s{8s, 7p, 5f, 5g} electronic configurations of Pb III Alonso-Medina A JOURNAL OF QUANTITATIVE SPECTROSCOPY & RADIATIVE TRANSFER Volume: 111 Issue: 14 Pages: 2043-2051 Published: SEP 2010 7 Calculation of Optical Thicknesses of Magnesium Emission Spectral Lines for Diagnostics of Laser-Induced Plasmas, Diaz Pace Diego M.; D'Angelo Cristian A.; Bertuccelli Graciela, APPLIED SPECTROSCOPY Volume: 65 Issue: 10 Pages: 1202-1212 DOI: 10.1366/11-06348 Published: OCT 2011 8 Comparison research on the laser plasma spectra with and without obvious self-absorption Author(s): Fu, H. B.; Chen, C. S.; Man, B. Y.; et al. Source: EUROPEAN PHYSICAL JOURNAL D Volume: 65 Issue: 3 Pages: 509-513 DOI: 10.1140/epjd/e2011-20265-2 Published: DEC 2011 9 Pardini, L., Legnaioli, S., Lorenzetti, G., Palleschi, V., Gaudiuso, R., De Giacomo, A., ... & Parigger, C. (2013). On the determination of plasma electron density from Stark broadened hydrogen Balmer series lines in Laser-Induced Breakdown Spectroscopy experiments. Spectrochimica Acta Part B: Atomic Spectroscopy. 10 Bredice, F., et al. "A Procedure for Estimating the Electron Temperatureand the Departure of the LTE Condition in a Time- Dependent, Spatially Homogeneous, Optically Thin Plasma." Brazilian Journal of Physics (2013): 1-8. 11 Díaz Pace, Diego M. "Laser–induced plasma characterization using line profile analysis of Cromium neutral atom and ion transitions." Journal of Quantitative Spectroscopy and Radiative Transfer (2013).

28 R. Sanginés*, C. Sánchez Aké*, H. Sobral and M. Villagrán-Muniz, 2007, Time resolved optical emission spectroscopy of cross-beam pulsed laser ablation on graphite targets, Phys. Lett A, 367 (4-5): p.p.351-355; doi: 10. 1016 / J.physleta. 2007.03.016 1 Optical and Electrical Properties Evolution of Diamond-Like Carbon Thin Films with Deposition Temperature Author(s): Ding XL, Li QS, Kong XHSource: CHINESE PHYSICS LETTERS Volume: 26 Issue: 2 Article Number: 027802 Published: FEB 2009 2 Photoluminescence and bonding structure evolution of amorphous carbon films with laser intensity: Ding XL, Li QS, Kong XH PHYSICA B-CONDENSED MATTER Volume: 404 Issue: 14-15 Pages: 1920-1923 Published: JUL 1 2009 3 EFFECT OF REPETITION RATES OF LASER PULSES ON MICROSTRUCTURE AND OPTICAL PROPERTIES OF DIAMOND-LIKE CARBON FILMS Ding XL, Li QS, Kong XH INTERNATIONAL JOURNAL OF MODERN PHYSICS B Volume: 23 Issue: 30 Pages: 5071-5081 Published: DEC 10 2009 4 Ding, X. L., Li, Q. S., & Kong, X. H. (2009). Effect of nitrogen pressure on optical properties and microstructure of diamond-like carbon films grown by pulsed laser deposition. Optoelectronics Letters, 5, 117-119. 5 N. A. Savastenko and N. V. Tarasenko (2011) Optical Emission Spectroscopy of C2 and C3 Molecules in Laser Ablation Carbon Plasma. Spectroscopy, Dynamics and Molecular Theory of Carbon Plasmas and Vapors: pp. 167-198, doi: 10.1142/9789812837653_0005.

27 C. Sanchez Aké*, H. Sobral, M. Villagran-Muniz, 2007, Plasma characterization of cross-beam pulsed laser ablation used for carbon thin film deposition, Thin Solid Films, vol 516, pp.8-12; doi:10.1016/j.tsf.2007.04.043 1 Deposition and composition-control of Mn-doped ZnO thin films by combinatorial pulsed laser deposition using two delayed plasma plumes. Sánchez-Aké, C., Camacho, R., & Moreno, L. (2012). Journal of Applied Physics, 112(4), 044904-044904. 2 Effect of nitrogen pressure on optical properties and microstructure of diamond-like carbon films grown by pulsed laser deposition. Ding, X. L., Li, Q. S., & Kong, X. H. (2009).Optoelectronics Letters, 5(2), 117-119.

9 Nombre Completo (Apellidos y Nombres): Sobral, Hugo Martín Fecha de Actualización: marzo de 2014

26 C. Sánchez-Aké*, R. Sanginés de Castro*, H. Sobral, M. Villagrán-Muniz, 2006 “Plume dynamics of of cross-beam pulsed laser ablation of graphite”, Journal of Applied Physics, Vol 100, N 5 artículo 053305-1-6. 1 Characterization of aerosol plumes in nanosecond laser ablation of molecular solids at atmospheric pressure Author(s): Schmitz TA, Koch J, Gunther D, et al. APPLIED PHYSICS B-LASERS AND OPTICS Volume: 100 Issue: 3 Pages: 521-533 Published: SEP 2010 2 Late-time particle emission from laser-produced graphite plasma, Harilal S. S.; Hassanein A.; Polek M. JOURNAL OF APPLIED PHYSICS Volume: 110 Issue: 5 Article Number: 053301 DOI: 10.1063/1.3631789 Published: SEP 1 2011 3 Escobar-Alarcón, L., Camps, E., Romero, S., Muhl, S., Camps, I., & Haro-Poniatowski, E. (2010). TiCN thin films grown by reactive crossed beam pulsed laser deposition. Applied Physics A, 101(4), 771-775. 4 Sánchez-Aké, C., Mustri-Trejo, D., García-Fernández, T., & Villagrán-Muniz, M. (2010). Analysis of two colliding laser-produced plasmas by emission spectroscopy and fast photography. Spectrochimica Acta Part B: Atomic Spectroscopy, 65(5), 401-408. 5 Gupta, S. L., Singh, R. P., & Thareja, R. K. (2013, June). Colliding plasma plume dynamics and ZnO thin film deposition. In International Conference on Optics in Precision Engineering and Nanotechnology (icOPEN2013) (pp. 87692G-87692G). International Society for Optics and Photonics. 6 Singh, R. P., Gupta, S. L., & Thareja, R. K. (2013). Spectroscopic investigation of colliding plasma plumes. Spectrochimica Acta Part B: Atomic Spectroscopy. 7 Al-Shboul, K. F., Harilal, S. S., & Hassanein, A. (2013). Emission features of femtosecond laser ablated carbon plasma in ambient helium. Journal of Applied Physics, 113(16), 163305-163305. 8 Umezu, I., Sakamoto, N., Fukuoka, H., Yokoyama, Y., Nobuzawa, K., & Sugimura, A. (2013). Effects of collision between two plumes on plume expansion dynamics during pulsed laser ablation in background gas. Applied Physics A, 1-4.

25 F. Bredice; F. Borges; H. Sobral; M. Villagran-Muniz; H. Di Rocco; G. Cristoforetti; S. Legnaioli, V. Palleschi; L. Pardini; A. Salvetti; E. Tognoni, 2006, “Evaluation of self- absorption of manganese emission lines in Laser Induced Breakdown Spectroscopy measurements”, Spectrochimica Acta Part B: Atomic Spectroscopy, Vol 61 N12 pp. 1294-1303. 1. Characterization of laser-induced plasmas by emission spectroscopy with curve-of-growth measurements. Part I: Temporal evolution of plasma parameters and self-absorption Author(s): Aguilera JA, Aragon C SPECTROCHIMICA ACTA PART B- ATOMIC SPECTROSCOPY Volume: 63 Issue: 7 Pages: 784-792 Published: JUL 2008 2. Atomic spectrometry update. Advances in atomic emission, absorption, and fluorescence spectrometry, and related techniques Evans EH, Day JA, Palmer CD, et al. JOURNAL OF ANALYTICAL ATOMIC SPECTROMETRY Volume: 23 Issue: 6 Pages: 889-918 Published: 2008 3. Self-absorbed lines analysis of a recombining laser induced aluminum plasma Ribiere M, Cheron BG, Bultel A HIGH TEMPERATURE MATERIAL PROCESSES Volume: 12 Issue: 1-2 Pages: 109-120 Published: 2008 4. A numerical study of expected accuracy and precision in Calibration-Free Laser-Induced Breakdown Spectroscopy in the assumption of ideal analytical plasma Tognoni E, Cristoforetti G, Legnaloli S, et al. SPECTROCHIMICA ACTA PART B-ATOMIC SPECTROSCOPY Volume: 62 Issue: 12 Special Issue: Sp. Iss. SI Pages: 1287-1302 Published: DEC 2007 5. Spatial distribution of hydrogen and other emitters in aluminum laser-induced plasma in air and consequences on spatially integrated Laser-Induced Breakdown Spectroscopy measurements De Giacomo A, Dell'Aglio M, Gaudiuso R, et al.Source: SPECTROCHIMICA ACTA PART B-ATOMIC SPECTROSCOPY Volume: 63 Issue: 9 Pages: 980-987 Published: SEP 2008 6 : On the usefulness of a duplicating mirror to evaluate self-absorption effects in laser induced breakdown spectroscopyMoon HY, Herrera KK, Omenetto N, et al. SPECTROCHIMICA ACTA PART B-ATOMIC SPECTROSCOPY Volume: 64 Issue: 7 Pages: 702-713 Published: JUL 2009 7 Semiempirical model for analysis of inhomogeneous optically thick laser-induced plasmas D'Angelo CA, Pace DMD, Bertuccelli G 5th International Conference on Laser-Induced Breakdown Spectroscopy, SEP 22-26, 2008 Berlin, GERMANY Source: SPECTROCHIMICA ACTA PART B-ATOMIC SPECTROSCOPY Volume: 64 Issue: 10 Special Issue: Sp. Iss. SI Pages: 999- 1008 Published: OCT 2009 8 Diode laser absorption measurements at the H-alpha-transition in laser induced plasmas on different targets: El Sherbini AM, Aboulfotouh AM, Allam SH, et al. SPECTROCHIMICA ACTA PART B-ATOMIC SPECTROSCOPY Volume: 65 Issue: 12 Pages: 1041-1046 Published: DEC 2010 9 Experimental and theoretical investigation of a self-absorbed spectral line emitted from laser-induced plasmas Ben Ahmed J, Cowpe J APPLIED OPTICS Volume: 49 Issue: 18 Pages: 3607-3612 Published: JUN 20 2010 10 Self-absorbed lines analysis of a recombining laser induced metallic plasma Ribière, BG Chéron… Proceedings 28th ICPIG, July 15-20, 2007, pp 915-918 Prague, Czech Republic 11 Construção e avaliação de um instrumento para espectroscopia de emissão em plasma induzido por laser (libs): aplicação em ligas metálicas, tesis de maestria Juliana Cortez, 2007, Universidade Estadual de Campinas-UNICAMP.

10 Nombre Completo (Apellidos y Nombres): Sobral, Hugo Martín Fecha de Actualización: marzo de 2014

12 THE VALIDITY OF COMMERCIAL LIBS FOR QUANTITATIVE ANALYSIS OF BRASS ALLOY - COMPARISON OF WDXRF AND AAS, Shaltout Abdallah A.; Abdel-Aal M. S.; Mostafa N. Y., JOURNAL OF APPLIED SPECTROSCOPY Volume: 78 Issue: 4 Pages: 594-600 Published: SEP 2011 13 Research on the Analytical Line Auto-Selection for Quantitative Analysis of Materials with Laser-Induced Breakdown Spectroscopy Author(s): Du Zhen-hui; Meng Fan-li; Li Jin-yi; et al. Source: SPECTROSCOPY AND SPECTRAL ANALYSIS Volume: 32 Issue: 4 Pages: 876-880 DOI: 10.3964/j.issn.1000-0593(2012)04-0876-05 Published: APR 2012 14 Laser-Induced Breakdown Spectroscopy (LIBS), Part II: Review of Instrumental and Methodological Approaches to Material Analysis and Applications to Different Fields Author(s): Hahn, David W.; Omenetto, Nicolo Source: APPLIED SPECTROSCOPY Volume: 66 Issue: 4 Pages: 347-419 DOI: 10.1366/11-06574 Published: APR 2012 15 Study of Self-Absorption of Emission Magnesium Lines in Laser-Induced Plasmas on Calcium Hydroxide Matrix Author(s): Diaz Pace, Diego M.; D'Angelo, Cristian A.; Bertuccelli, Graciela Source: IEEE TRANSACTIONS ON PLASMA SCIENCE Volume: 40 Issue: 3 Pages: 898-908 DOI: 10.1109/TPS.2011.2181875 Part: Part 2 Published: MAR 2012 16 : Self-absorption quantification in the case of SF6-N-2 thermal plasma mixture Author(s): Habib, A. A. M. Source: JOURNAL OF QUANTITATIVE SPECTROSCOPY & RADIATIVE TRANSFER Volume: 113 Issue: 16 Pages: 2146-2154 DOI: 10.1016/j.jqsrt.2012.06.014 Published: NOV 2012 17 Characterization of laser induced plasmas by optical emission spectroscopy: A review of experiments and methods.Aragón, C., & Aguilera, J. A. (2008). Spectrochimica Acta Part B: Atomic Spectroscopy, 63(9), 893-916. 18 Developing the model of laser ablation by considering the interplay between emission and expansion of aluminum plasma Rezaei, F., & Tavassoli, S. H. (2013).. Physics of Plasmas, 20, 013301. 19 Characterization of laser–induced plasmas by atomic emission spectroscopy. Pace, D. M. D., Bertuccelli, G., & D'Angelo, C. A. (2011, February). In Journal of Physics: Conference Series (Vol. 274, No. 1, p. 012076). IOP Publishing. 20 Une évaluation des performances analytiques de la spectroscopie sur plasma induit par laser (LIBS) Ismaël, A. (2011). (Doctoral dissertation, Université de Pau et des Pays de l’Adour). 21 Rakovsky, J. (2012). Qualitative-portable to quantitative-laboratory LIBS (Doctoral dissertation, Université de Bourgogne). 22. In, J. H., Kim, C. K., Lee, S. H., Shim, H. S., & Jeong, S. (2013). Quantitative analysis of CuIn1− xGaxSe2 thin films with fluctuation of operational parameters using laser-induced breakdown spectroscopy. J. Anal. At. Spectrom., 28(6), 890-900. 23. Pace, D. M. D., D'Angelo, C. A., & Bertuccelli, G. (2012). Study of Self-Absorption of Emission Magnesium Lines in Laser- Induced Plasmas on Calcium Hydroxide Matrix. Plasma Science, IEEE Transactions on, 40(3), 898-908. 24. Spectrometric Measurement of Plasma Parameters Utilizing the Target Ambient Gas O I & N I Atomic Lines in LIBS Experiment, Scientific Research DOI: 10.4236/opj.2012.24035 Ashraf M. El Sherbini, Abdel Aziz Saad Al Amer, Ahmed T. Hassan, Tharwat M. El Sherbini Vol.2 No.4, December 2012 25. Cavalcanti, G. H., Teixeira, D. V., Legnaioli, S., Lorenzetti, G., Pardini, L., & Palleschi, V. (2013). One-point Calibration for Calibration-Free Laser-Induced Breakdown Spectroscopy quantitative analysis. Spectrochimica Acta Part B: Atomic Spectroscopy. 26. Bredice, F., Borges, F. O., Di Rocco, H. O., Mercado, R. S., Villagrán-Muniz, M., & Palleschi, V. (2013). A Procedure for Estimating the Electron Temperatureand the Departure of the LTE Condition in a Time-Dependent, Spatially Homogeneous, Optically Thin Plasma. Brazilian Journal of Physics, 1-8. 27. Rezaei, F., Karimi, P., & Tavassoli, S. H. (2013). Estimation of self-absorption effect on aluminum emission in the presence of different noble gases: comparison between thin and thick plasma emission. Applied optics, 52(21), 5088-5096. 28. Díaz Pace, D. M. (2013). Laser–induced plasma characterization using line profile analysis of Cromium neutral atom and ion transitions. Journal of Quantitative Spectroscopy and Radiative Transfer.

24 R. Sanginés de Castro*, H. Sobral, C. Sánchez-Aké*, M. Villagrán-Muniz, 2006, “Two-color interferometry and fast photography measurements of dual-pulsed laser ablation on graphite targets”, Phys. Lett A, Vol 357, n 4-5, pp 351-354. 1. Cavity ringdown spectroscopy of collinear dual-pulse laser plasmas in vacuum): Krstulovic N, Cutic N, Milosevic S SPECTROCHIMICA ACTA PART B-ATOMIC SPECTROSCOPY Volume: 64 Issue: 3 Pages: 271-277 Published: MAR 2009 2 Laser-ablation-induced refractive index fields studied using pulsed digital holographic interferometry: Amer E, Gren P, Sjodahl M OPTICS AND LASERS IN ENGINEERING Volume: 47 Issue: 7-8 Pages: 793-799 Published: JUL-AUG 2009 3 Laser ablation for analysis of nanoscale layers Butikova J, Sarakovskis A, Polyakov B, et al. Conference Information: Conference on Functional Materials and Nanotechnologies, APR 02-04, 2007 Univ Latvia, Inst Solid State Phys, Riga, LATVIA FUNCTIONAL MATERIALS AND NANOTECHNOLOGIES : FM&NT-2007 Book Series: Journal of Physics Conference Series Volume: 93 article 012043, DOI: 10.1088/1742-6596/93/1/012043, 2007 4 Laser-ablation-induced refractive index fields studied using pulsed digital holographic interferometry. Amer, E., Gren, P., & Sjödahl, M. (2009). Optics and Lasers in Engineering, 47(7), 793-799. 5 Loktionov, E. Y., Protasov, Y. Y., Telekh, V. D., & Khaziev, R. R. (2013). KOMPLEKSNAYa OBRABOTKA INTERFEROGRAMM SVETOEROZIONNYKh GAZOVO-PLAZMENNYKh POTOKOV V VAKUUME. Pribory i tekhnika eksperimenta, (1), 53-62. 6 Loktionov, E. Y., Protasov, Y. Y., Telekh, V. D., & Khaziev, R. R. (2013). Complex processing of interferograms of light-erosion gas-plasma streams in vacuum. Instruments and Experimental Techniques, 56(1), 46-54.

11 Nombre Completo (Apellidos y Nombres): Sobral, Hugo Martín Fecha de Actualización: marzo de 2014 23 C Sánchez Aké*, H Sobral, P Ramos-Alvarez*, C Lemen* and M Villagrán-Muniz, 2007 “Ion kinetic energy control in dual-pulsed laser ablation on graphite targets”, Journal of Physics C.S.; vol 59 pp. 728-731

22 H. Sobral, F. Bredice, M. Villagrán Muniz, 2005, “Energy Balance in Laser Ablation of Metal Targets”, Journal of Applied Physics, Vol 98 No 8: Art. No. 083305. 1 Ana M. Beccagliaa, Carlos A. Rinaldi, a, and Juan C. Ferreroa, Analysis of arsenic and calcium in soil samples by laser ablation mass spectrometry, Analytica Chimica Acta Volume 579, Issue 1 , 2 October 2006, Pages 11-16 2 Cabanillas-Vidosa I, Rinaldi CA, Ferrero JC Optical emission and mass spectrometric characterization of laser ablation process of Ca, Mg, and Ba at 1064 nm JOURNAL OF APPLIED PHYSICS 102 (1): Art. No. 013110 JUL 1 2007 3 A review of normalization techniques in analytical atomic spectrometry with laser sampling: From single to multivariate correction Zorov NB, Gorbatenko AA, Labutin TA, et al. Conference Information: 5th Euro-Mediterranean Sympsoium on Laser Induced Breakdown Spectroscopy, SEP 28-OCT 01, 2009 Rome, ITALY Source: SPECTROCHIMICA ACTA PART B-ATOMIC SPECTROSCOPY Volume: 65 Issue: 8 Special Issue: Sp. Iss. SI Pages: 642-657 Published: AUG 2010 4 Electric field-perturbation measurement of the interaction between two laser-induced plasmas Author(s): Sanchez-Ake, C.; Bredice, F.; Villagran-Muniz, M. Source: REVIEW OF SCIENTIFIC INSTRUMENTS Volume: 83 Issue: 2 Article Number: 023504 DOI: 10.1063/1.3683453 Part: Part 1 Published: FEB 2012 5 Mironov, E. G., Li, Z., Hattori, H. T., Vora, K., Tan, H. H., & Jagadish, C. (2013). Titanium nano-antenna for high-power pulsed operation. Lightwave Technology, Journal of , vol 31 pp 2459-2466 6 Toro, C., Lasorsa, C., & Rinaldi, C. (2011). Detecting Plasma Produced by Laser in a Micromachining System as In-process Control. JOURNAL OF LASER MICRO NANOENGINEERING, 6(3), 220-224.

21 F. Rivera, M. Navarrete, R. Vera-Graziano and H. Sobral, 2005, “In-situ photo- polymerization study of Si-(bis-GMA)/TEGDMA by correlations of PA signals”, Journal de Physique IV vol 125 pp 761-764. 1 Multifractality in the Copolymerization of Bis-GMA/TEGDMA by Pulsed Photoacoustics, Navarrete M, Pineda J, Vera-Graziano R, JOURNAL OF APPLIED POLYMER SCIENCE Volume: 111 Issue: 3 Pages: 1199-1208 Published: FEB 5 2009

20. E. Alvarez-Zauco*, H. Sobral, E. V. Basiuk (Golovataya-Dzhymbeeva), J.M. Saniger Blesa, M. Villagrán-Muniz, 2005, “Polymerization of C60 Fullerene Thin Films by UV Pulsed Laser Irradiation”, Applied Surface Science, vol 248, pp. 243- 247. 1. Alvarez-Zauco E, Basiuk EV, Castaneda-Guzman R, et al Phototransformation of C-60 thin films by UV pulsed laser irradiation: Comparative photoacoustic, AFM, and Raman studies JOURNAL OF NANOSCIENCE AND NANOTECHNOLOGY 7 (4-5): 1414-1418 APR-MAY 2007 2. Chen J, Tsekouras G, Officer DL, et al. Novel fullerene-functionalised poly(terthiophenes) JOURNAL OF ELECTROANALYTICAL CHEMISTRY 599 (1): 79-84 JAN 1 2007 3 Loffler D, Weis P, Bottcher A, et al. Thermal stability of deuterated C-60 films JOURNAL OF PHYSICAL CHEMISTRY C 111 (48): 17743-17750 DEC 6 2007 4 Dmitruk NL, Borkovskaya OY, Mamontova IB, et al. Optical and electrical characterization of chemically and photopolymerized C-60 thin films on silicon substrates THIN SOLID FILMS 515 (19): 7716-7720 JUL 16 2007 Title: Polymeric semiconducting carbon from fullerene by pulsed laser ablation 5 Mominuzzaman SM, Chandrasekaran N, Soga T, et al. DIAMOND AND RELATED MATERIALS Volume: 17 Issue: 4-5 Special Issue: Sp. Iss. SI Pages: 641-645 Published: APR-MAY 2008 6 Metal-independent coherent electron tunneling through polymerized fullerene chains, Lee GI, Kang JK, Kim YH, JOURNAL OF PHYSICAL CHEMISTRY C Volume: 112 Issue: 17 Pages: 7029-7035 Published: MAY 1 2008 7 Thermal stability of deuterated C-60 films , Loffler D, Weis P, Bottcher A, et al. JOURNAL OF PHYSICAL CHEMISTRY C Volume: 111 Issue: 48 Pages: 17743-17750 Published: DEC 6 2007 8 Optical and electrical characterization of chemically and photopolymerized C-60 thin films on silicon substrates, Dmitruk NL, Borkovskaya OY, Mamontova IB, et al. Source: THIN SOLID FILMS Volume: 515 Issue: 19 Pages: 7716-7720 Published: JUL 16 2007 9 Polymeric semiconducting carbon from fullerene by pulsed laser ablation, Mominuzzaman SM, Chandrasekaran N, Soga T, et al.Source: DIAMOND AND RELATED MATERIALS Volume: 17 Issue: 4-5 Special Issue: Sp. Iss. SI Pages: 641-645 Published: APR-MAY 2008 10 Preparation of Fullerene (C-60) Based SiO2 Sonogel Hybrid Composites: UV Laser Induced Photo-Polymerization, Morphological, and Optical Properties, Morales-Saavedra OG, Castaneda R, Banuelos JG, et al.Source: JOURNAL OF NANOSCIENCE AND NANOTECHNOLOGY Volume: 8 Issue: 7 Pages: 3582-3594 Published: JUL 2008 11 Interfacial supramolecular cyclodextrin-fullerene assemblies: host reorientation and guest stabilization,McNally A, Forster RJ, Keyes TESource: PHYSICAL CHEMISTRY CHEMICAL PHYSICS Volume: 11 Issue: 5 Pages: 848-856 Published: 2009 12 Complete oxidation of isopropanol over Cu4O3 (paramelaconite) coating deposited on fiberglass by CVD, Medina-Valtierra J, Frausto-Reyes C, Camarillo-Martinez G, et al.Source: APPLIED CATALYSIS A-GENERAL Volume: 356 Issue: 1 Pages: 36-42 Published: MAR 1 2009 12 Nombre Completo (Apellidos y Nombres): Sobral, Hugo Martín Fecha de Actualización: marzo de 2014

13 Structure of C-60 polymer coatings deposited via electron-beam dispersion of fullerite Kazachenko VP, Ryazanov IV PHYSICS OF THE SOLID STATE Volume: 51 Issue: 4 Pages: 870-875 Published: APR 2009 14 Iron catalyzed synthesis of hollow carbon nanocapsules by resistive heating Kizuka T, Fujii J, Miyazawa K DIAMOND AND RELATED MATERIALS Volume: 18 Issue: 10 Pages: 1253-1257 Published: OCT 2009 15 Growth and ellipsometric studies on C-60 thin films for solar cell applications: Datta D, Kumar S JOURNAL OF APPLIED PHYSICS Volume: 106 Issue: 7 Article Number: 074517 Published: OCT 1 2009 16 Pulsed laser deposition of hard and superhard carbon thin films from C-60 targets: Rau JV, Teghil R, De Bonis A, et al. DIAMOND AND RELATED MATERIALS Volume: 19 Issue: 1 Pages: 7-14 Published: JAN 2010 17 Advancement and problems of fullerene-oxygen-iodine laser Grenishin AS, Kiselev VM, Kislyakov IM, et al. OPTICS AND SPECTROSCOPY Volume: 108 Issue: 1 Pages: 143-149 Published: JAN 2010 18 Fullerene-multiwalled carbon nanotube complexes for bulk heterojunction photovoltaic cells: Li C, Chen YL, Ntim SA, et al. APPLIED PHYSICS LETTERS Volume: 96 Issue: 14 Article Number: 143303 Published: APR 5 2010 19 Noble metal clusters and C60-buckminsterfullerenes on carbon surfaces : a photoelectron spectroscopy study Büttner, Michael. Noble metal clusters and C60-buckminsterfullerenes on carbon surfaces : a photoelectron spectroscopy study. 2006, PhD Thesis, University of Basel, Faculty of Science. 20 Fullerene Thin Films Functionalized by 1,5-Diaminonaphthalene: Preparation and Properties, Martinez-Loran Erick; Alvarez- Zauco Edgar; Basiuk Vladimir A.; et al., JOURNAL OF NANOSCIENCE AND NANOTECHNOLOGY Volume: 11 Issue: 6 Pages: 5569-5573 DOI: 10.1166/jnn.2011.3439 Published: JUN 2011 21 Formation and reinforcement of clusters composed of C(60) molecules, Kurosu Shunji; Fukuda Takahiro; Shibuya Yuichi; et al., NANOSCALE RESEARCH LETTERS Volume: 6 Article Number: 80 DOI: 10.1186/1556-276X-6-80 Published: 2011 22 Nanostructured Diamine-Fullerene Derivatives: Computational Density Functional Theory Study and Experimental Evidence for their Formation via Gas-Phase Functionalization Author(s): Contreras-Torres, Flavio F.; Basiuk, Elena V.; Basiuk, Vladimir A.; et al. Source: JOURNAL OF PHYSICAL CHEMISTRY A Volume: 116 Issue: 6 Pages: 1663-1676 DOI: 10.1021/jp211577k Published: FEB 16 2012 23 Raman Laser Polymerization of C 6 0 Nanowhiskers, Kato, R., & Miyazawa, K. I. (2012).. Journal of Nanotechnology, 2012. 24 Determination of Tequila Quality by Photoacoustic Analysis. Ruiz-Pérez, A., Pérez-Castañeda, J. I., Castañeda-Guzmán, R., & Pérez-Ruiz, S. J. (2013) International Journal of Thermophysics, 1-8. 25 Grenishin, A. S., Kiselev, V. M., Kislyakov, I. M., Pavlova, A. L., & Sosnov, E. N. (2010). DOSTIZhENIYa I PROBLEMY FULLEREN-KISLOROD-IODNOGO LAZERA. Optika i spektroskopiya, 108(1), 148-155. 26 Büttner, M. (2006). Noble metal clusters and C60-buckminsterfullerenes on carbon surfaces: a photoelectron spectroscopy study (Doctoral dissertation, University of Basel). 27 Казаченко, В. П., & Рязанов, И. В. (2009). Структура полимерных покрытий из C60, полученных методом электронно- лучевого диспергирования фуллерита. Физика твердого тела, 51(4).

19. A. Robledo-Martínez, H. Sobral and M. Villagrán-Muniz, 2005, “Measurement of the electrical size of a laser-induced plasma in a uniform field”, Applied Surface Science vol 248, N 1-4 pp. 32-35 1 MEASUREMENT OF THE EFFECTIVE LENGTH OF LASER-PLASMA CHANNELS IN A LASER TRIGGERED GAS SWITCH BY GUIDED MICROWAVE BACKSCATTERING IN SF6 AND N-2/SF6 Author(s): Gilmore M, Stoltzfus B, Savage ME, et al. Conference Information: 17th IEEE International Pulsed Power Conference, JUN 28-JUL 02, 2009 Washington, DC Source: 2009 IEEE PULSED POWER CONFERENCE, VOLS 1 AND 2 Pages: 595-600 Published: 2009 2 12 J. Álvarez, P. Pacheco, R. Sarmiento, et al: Caracterización De Un Plasma-Láser En Aire Empleando Un Circuito RC, Revista Colombiana de Física, Vol. 43, No.1 de 2011. 3 Ali, A. H., & Bidin, N. (2011). Study of Laser–Induced Plasma Using Two Focusing Techniques. International Journal of Integrated Engineering, 1(3). 4 Ahmad, S., Muhamad, N., Sahari, J., & Jamaludin, K. R. (2011). Optimisation of sintering factors of titanium foams using Taguchi method. International Journal of Integrated Engineering, 2(1). 5 LASER,. ESTUDO E. OPTIMIZAÇÃO DO CORTE (2006). FACULDADE DE ENGENHARIA DA UNIVERSIDADE DO PORTO (Doctoral dissertation, Universidade do Porto).

18. A. Robledo-Martinez, H. Sobral and M. Villagrán-Muniz, 2004, “Dipolar field and plasma expansion at the onset of laser-induced breakdown in a uniform DC field”, Journal of Physics D: Applied Physics, vol 37, no 20, pp. 2819-2826. 1 Laser ablation assisted spark induced breakdown spectroscopy on soil samples Author(s): Li KX, Zhou WD, Shen QM, et al. Source: JOURNAL OF ANALYTICAL ATOMIC SPECTROMETRY Volume: 25 Issue: 9 Pages: 1475-1481 Published: 2010 2 12 J. Álvarez, P. Pacheco, R. Sarmiento, et al: Caracterización De Un Plasma-Láser En Aire Empleando Un Circuito RC, Revista Colombiana de Física, Vol. 43, No.1 de 2011. 3 Electric field-perturbation measurement of the interaction between two laser-induced plasmas Author(s): Sanchez-Ake, C.; Bredice, F.; Villagran-Muniz, M. Source: REVIEW OF SCIENTIFIC INSTRUMENTS Volume: 83 Issue: 2 Article Number: 023504 DOI: 10.1063/1.3683453 Part: Part 1 Published: FEB 2012

13 Nombre Completo (Apellidos y Nombres): Sobral, Hugo Martín Fecha de Actualización: marzo de 2014

4 Measurement of the effective length of laser-plasma channels in a laser triggered gas switch by guided microwave backscattering in SF6 and N2/SF6 Gilmore, M., Stoltzfus, B., Savage, M. E., & Clarke, W. T. (2009, June). In Pulsed Power Conference, 2009. PPC'09. IEEE (pp. 598-603). IEEE.

17. H. Sobral, R. Sanginés de Castro*, M. Villagrán Muniz, R. Navarro González, 2004, “Time Resolved Study of Simulated Volcanic Lightning by Laser Ablation of Basalt in Air”, Geophysical Research Letters, vol 31, doi:10.1029/2003GL019217.

1. Segura A, Navarro-Gonzalez R, Nitrogen fixation on early Mars by volcanic lightning and other sources, GEOPHYSICAL RESEARCH LETTERS 32 (5): Art. No. L05203 MAR 10 2005 2. Oppenheimer C, Kyle PR, Tsanev VI, et al., Mt. Erebus, the largest point source of NO2 in Antarctica, ATMOSPHERIC ENVIRONMENT 39 (32): 6000-6006 OCT 2005 3. Rahman M, Cooray V A study of NOx production in air heated by laser discharges: Effect of energy, wavelength, multiple discharges and pressure OPTICS AND LASER TECHNOLOGY 40 (1): 208-214 FEB 2008 4. A pressure measurement method for high-temperature rock vapor plumes using atomic line broadening Author(s): Kurosawa K, Sugita S Source: JOURNAL OF GEOPHYSICAL RESEARCH-PLANETS Volume: 115 Article Number: E10003 Published: OCT 12 2010 5. N. A. Savastenko and N. V. Tarasenko (2011) Optical Emission Spectroscopy of C2 and C3 Molecules in Laser Ablation Carbon Plasma. Spectroscopy, Dynamics and Molecular Theory of Carbon Plasmas and Vapors: pp. 167-198. doi: 10.1142/9789812837653_0005

16. C. Sánchez Aké*, H. Sobral, E. Sterling*, M.Villagrán-Muniz, 2004, “Time of Flight of Dual-Laser Ablation Carbon Plasmas by Optical Emission Spectroscopy”, Applied Physics A; Material Science and Processing, vol A79, no 4-6, pp. 1345-1347. 1. Yan LX, Zhang YS, Zhang LR, et al. Observation of atomic emission enhancement by fs-ns dual-pulse laser-induced breakdown spectroscopy, CHINESE PHYSICS LETTERS 23 (1): 73-74 JAN 2006 2. Yan LX, Zhang YS, Zheng GX, et al. Time-resolved measurement of atomic emission enhancement by fs-ns dual-pulsed laser-induced breakdown spectroscopy CHINESE PHYSICS 15 (10): 2271-2274 OCT 2006 3. Babushok VI, DeLucia FC, Gottfried JL, et al., Double pulse laser ablation and plasma: Laser induced breakdown spectroscopy signal enhancement Spectrochimica Acta Part B: Atomic Spectroscopy, Volume 61, Issue 9, September 2006, Pages 999-1014 4. Cavity ringdown spectroscopy of collinear dual-pulse laser plasmas in vacuum Krstulovic N, Cutic N, Milosevic S: SPECTROCHIMICA ACTA PART B-ATOMIC SPECTROSCOPY Volume: 64 Issue: 3 Pages: 271-277 MAR 2009 5. Temporal evolution of the laser-induced plasma generated by IR CO2 pulsed laser on carbon targets Camacho JJ, Diaz L, Santos M, et al.JOURNAL OF APPLIED PHYSICS Volume: 106 Issue: 3 Article Number: 033306 AUG 1 2009 6. 6. N. A. Savastenko and N. V. Tarasenko (2011) Optical Emission Spectroscopy of C2 and C3 Molecules in Laser Ablation Carbon Plasma. Spectroscopy, Dynamics and Molecular Theory of Carbon Plasmas and Vapors: pp. 167-198. doi: 10.1142/9789812837653_0005

15. M. Villagrán-Muniz, H Sobral, R. Navarro-González , P. F. Velázquez and A. C. Raga, 2003 “Experimental Simulation of Lightning, Interacting Explosions and Astrophysical Jets with Pulsed Lasers”, Plasma Physics and Controlled Fusion, vol. 45, pp. 571-584.

1. M. Villagrán Muniz, “Experimentos y Modelos en Física: Algunos Ejemplos” Revista de la Asociación de Profesores de Física de Uruguay, Vol 6, pp..3-5, 2004. 2. S.S. Harilal, “Spatial and Temporal Evolution of Argon Sparks”, Applied Optics, Volume 43, Issue 19, 3931-3937, July 2004 3. James D. Winefordner, Igor B. Gornushkin, Tiffany Correll, Emily Gibb, Benjamin W. Smith and Nicolo´ Omenetto, “Comparing several atomic spectrometric methods to the super stars: special emphasis on laser induced breakdown spectrometry, LIBS, a future super star”, J Anal. At Spectr, 2004, vol 19, pag 1061-1083. 4. Lackner, M., Winter, F., Charareh, S., Iskra, K., Neger, T., Kopecek, H., Wintner, E., (...), Herdin, G, Optical diagnostics of laser ignition for future advanced engines, Proceedings of the 2004 Fall Technical Conference of the ASME Internal Combustion Engine Division , 35-42 , 2004. 5. Gornushkin, I.B., Kazakov, A.Ya., Omenetto, N., Smith, B.W., Winefordner, J.D, Radiation dynamics of post-breakdown laser induced plasma, Spectrochimica Acta - Part B Atomic Spectroscopy 59 (4) , 401-418, 2004. 6. Weinrotter, M.a , Kopecek, H.a , Tesch, M.a , Wintner, E.a , Lackner, M.b , Winter, F.b, Laser ignition of ultra-lean methane/hydrogen/air mixtures at high temperature and pressure, Experimental Thermal and Fluid Science, Volume 29, Issue 5, June 2005, Pages 569-577 14 Nombre Completo (Apellidos y Nombres): Sobral, Hugo Martín Fecha de Actualización: marzo de 2014

7. Babankova D, Civis S, Juha L Chemical consequences of laser-induced dielectric breakdown in molecular gases CHEMICKE LISTY 99 (2): 109-115 2005 8. Babankova D, Civis S, Juha L, et al. Optical and X-ray emission spectroscopy of high-power laser-induced dielectric breakdown in molecular gases and their mixtures JOURNAL OF PHYSICAL CHEMISTRY A 110 (44): 12113-12120 NOV 9 2006 9. Rahman M, Cooray V A study of NOx production in air heated by laser discharges: Effect of energy, wavelength, multiple discharges and pressure OPTICS AND LASER TECHNOLOGY 40 (1): 208-214 FEB 2008 10 Babankova D, Civis S, Juha L Chemical consequences of laser-induced breakdown in molecular gases PROGRESS IN QUANTUM ELECTRONICS 30 (2-3): 75-88 2006 11 Analysis of two colliding laser-produced plasmas by emission spectroscopy and fast photography Author(s): Sanchez-Ake C, Mustri-Trejo D, Garcia-Fernandez T, et al. Source: SPECTROCHIMICA ACTA PART B-ATOMIC SPECTROSCOPY Volume: 65 Issue: 5 Pages: 401-408 Published: MAY 2010 12 J. Álvarez, P. Pacheco, R. Sarmiento, et al: Caracterización De Un Plasma-Láser En Aire Empleando Un Circuito RC, Revista Colombiana de Física, Vol. 43, No.1 de 2011. 13 : Electric field-perturbation measurement of the interaction between two laser-induced plasmas Author(s): Sanchez-Ake, C.; Bredice, F.; Villagran-Muniz, M. Source: REVIEW OF SCIENTIFIC INSTRUMENTS Volume: 83 Issue: 2 Article Number: 023504 DOI: 10.1063/1.3683453 Part: Part 1 Published: FEB 2012 14 Sarmiento, R., Bredice, F., Pacheco, P., & Álvarez, J. (2011). Caracterización De Un Plasma-Láser En Aire Empleando Un Circuito RC. Revista Colombiana de Física, 43(1), 40. 15 Babênkovê, D., Civił, S., & Juha, L. CHEMICKÉ PROJEVY LASEROVÐCH JISKER., Chem. Listy 99, 109 - 115 (2005)

14. M. Villagrán-Muniz, H Sobral, R. Navarro-González, 2003, “Shock and Thermal Wave Study of Laser-Induced Plasmas in Air by Probe Beam Deflection Technique”, Measurements Science and Technology, vol 14, pp.614-618.

1. Lackner M, Charareh S, Winter F, et al., Investigation of the early stages in laser-induced ignition by Schlieren photography and laser-induced fluorescence spectroscopy,OPTICS EXPRESS 12 (19): 4546-4557 SEP 20 2004 2. Optical diagnostics of laser ignition for future advanced engines, Lackner, M., Winter, F., Charareh, S., Iskra, K., Neger, T., Kopecek, H., Wintner, E., (...), Herdin, G. Proceedings of the 2004 Fall Technical Conference of the ASME Internal Combustion Engine Division, pp. 35-42, 2004. 3. Weinrotter M, Kopecek H, Tesch M, et al., Laser ignition of ultra-lean methane/hydrogen/air mixtures at high temperature and pressure, EXPERIMENTAL THERMAL AND FLUID SCIENCE 29 (5): 569-577 JUN 2005 4. Samuel J. E. Brockingtona, Robert D. Horton, David Q. Hwang, Russell W. Evans, and Stephen J. Howard, Y. C. Francis Thio, Plasma density gradient measurement using laser deflection, REVIEW OF SCIENTIFIC INSTRUMENTS 76, 063503 (2005). 5. The application of fiber-coupling zig-zag beam deflection method on the investigation of plasma shock waves, Zhang, P., Bian, B.-M., Li, Z.-H. Proceedings of SPIE - The International Society for Optical Engineering 6024, art. no. 60241C, 2005 6. Me Baltazar-Lopez, “Applications Of Tap-Nde Technique To Non-Contact Ultrasonic Inspection In Tubulars, Texas A&M University, in partial fulfillment of the requirements for the degree of Doctor Of Philosophy, 2003. 7. Zhang P, Bian BM, Li ZH Fibre-coupling zig-zag beam deflection technology for investigation of attenuation process of laser-induced shock waves CHINESE PHYSICS LETTERS 22 (9): 2426-2428 SEP 2005 8. Koebel MM, Zimmt MB, Temporal position encoding photoacoustics: A technique for surface absorber mapping, JOURNAL OF APPLIED PHYSICS 98 (11): Art. No. 116104 DEC 1 2005 9. Laser extinguishment of CH4-N2/air counterflow diffusion flame, Torikai, H., Kitajima, A., Takeuchi, M. Nihon Kikai Gakkai Ronbunshu, B Hen/Transactions of the Japan Society of Mechanical Engineers, Part B 72 (1), pp. 179-186 2006 10. Radial variation of refractive index, plasma frequency and phase velocity in laser induced air plasma. Mathuthu M, Raseleka RM, Forbes A, West N. IEEE Transactions on Plasma Science, vol.34, no.6, pt.2, Dec. 2006, pp. 2554-60. Publisher: IEEE, USA. 11. Shock wave in near-field laser-material interaction Feng XH, Wang XW Nanodomain PHYSICS LETTERS A 369 (4): 323-327 SEP 24 2007 12. A beam-deflection probe as a method for optodynamic measurements of cavitation bubble oscillations Petkovsek R, Gregorcic P, Mozina J MEASUREMENT SCIENCE & TECHNOLOGY 18 (9): 2972-2978 SEP 2007 13. Monitoring of the laser microdrilling of glass by the optodynamic method Petkovsek R, Mozina J JOURNAL OF APPLIED PHYSICS 102 (4): Art. No. 044905 AUG 15 2007 14. Experimental investigation of ultraviolet laser induced plasma density and temperature evolution in air Author(s): Thiyagarajan M, Scharer J Source: JOURNAL OF APPLIED PHYSICS Volume: 104 Issue: 1 Article Number: 013303 Published: JUL 1 2008 15. Damage free particle removal from extreme ultraviolet lithography mask layers by high energy laser shock wave cleaning Author(s): Kim TG, Yoo YS, Kim TG, et al. Source: JAPANESE JOURNAL OF APPLIED PHYSICS Volume: 47 Issue: 6 Pages: 4886-4889 Part: Part 2 Published: JUN 2008

15 Nombre Completo (Apellidos y Nombres): Sobral, Hugo Martín Fecha de Actualización: marzo de 2014

16. Optodynamic characterization of laser-induced bubbles Author(s): Gregorcic P, Mozina J Source: ACTA PHYSICA POLONICA A Volume: 112 Issue: 5 Pages: 1137-1143 Published: NOV 2007 17. Experimental Investigation of 193-nm Laser Breakdown in Air, Thiyagarajan M, Scharer JESource: IEEE TRANSACTIONS ON PLASMA SCIENCE Volume: 36 Issue: 5 Pages: 2512-2521 Part: Part 3 Published: OCT 2008 18. A study of laser-generated plasmas and their application to high voltage engineering, West, N.J. Jandrell, I.R., Power Engineering Society Conference and Exposition in Africa, 2007. PowerAfrica '07. IEEE, Publication Date: 16-20 July 2007, pp: 1-6 19. Experimental measurements of multiphoton enhanced air breakdown by a subthreshold intensity excimer laser Way J, Hummelt J, Scharer J JOURNAL OF APPLIED PHYSICS Volume: 106 Issue: 8 Article Number: 083303 Published: OCT 15 2009 20. Optodynamic observation of double laser-induced breakdown at the water surface Horvat D, Petkovsek R, Mozina J MEASUREMENT SCIENCE & TECHNOLOGY Volume: 21 Issue: 3 Article Number: 035301 Published: MAR 2010 21. Experimental investigation of 193 nm excimer laser induced plasma in airAuthors: Thiyagarajan, Magesh Affiliation: AA(The University of Wisconsin - Madison) Publication: ProQuest Dissertations And Theses; Thesis (Ph.D.)--The University of Wisconsin - Madison, 2008.; Publication Number: AAI3314176; ISBN: 9780549632597 22. Shock wave driven by high intensity nanosecond laser pulse in atmospheric air and 2-D determination of refractive index variations of hot core air, Mandieh M. H.; Nikbakht M.; Sobhani M.,OPTICS COMMUNICATIONS Volume: 284 Issue: 19 Pages: 4828-4835 DOI: 10.1016/j.optcom.2011.05.025 Published: SEP 1 2011 23. Recent advances in optodynamics, Mozina J.; Diaci J.,APPLIED PHYSICS B-LASERS AND OPTICS Volume: 105 Issue: 3 Pages: 557-563 DOI: 10.1007/s00340-011-4503-6 Published: NOV 2011 24. Investigation into phenomena observed during the interaction of a focused high-energy laser beam with high voltage electric fields, West, Nicholas John, Tesis doctoral 2010, URI: http://hdl.handle.net/10539/7978 25. Shock-Wave Attenuation and Energy-Dissipation Potential of Granular Materials. Grujicic, M., Pandurangan, B., Bell, W. C., & Bagheri, S. (2012) Journal of materials engineering and performance, 21(2), 167-179. 26. Observation of Phenomena After Pulsed Laser Irradiation of Solid with Optical Wave Microphone. Mitsugi, F., Ikegami, T., Nakamiya, T., & Sonoda, Y. (2012). Japanese Journal of Applied Physics, 51(1). 27. Laser marking of a laminated surface characterized by an optodynamic method, Vegelj, D., & Možina, J. (2012).. Applied Physics A: Materials Science & Processing, 1-5. 28. Laser tattoo removal as an ablation process monitored by acoustical and optical methods. Cencič, B., Gregorčič, P., Možina, J., & Jezeršek, M. (2012). Applied Physics A: Materials Science & Processing, 1-5. 29. Improved interaction geometries for efficient acousto-optic beam deflection sensing in air. Darcie, T. E., Pahlevaninezhad, H., & Taylor, K. (2012, June). In Optical Sensors. Optical Society of America.

13. C. Sánchez Aké*, H. Sobral, M. Villagrán Muniz, L. Escobar-Alarcón y E. Camps, 2003, “Characterization of laser ablation plasmas by laser beam deflection”, Optics and Lasers in Engineering, vol 39, no 5-6, pp. 581-588.

1. Nemec P, Frumar M, Chalcogenide-based amorphous thin films prepared by pulsed laser deposition, J OPTOELECTRON ADV M, 5 (5): 1047-1058 2003 2. Frumar M, Frumarova B, Nemec P, et al.Thin chalcogenide films prepared by pulsed laser deposition - new amorphous materials applicable in optoelectronics and chemical sensors JOURNAL OF NON-CRYSTALLINE SOLIDS 352 (6-7): 544-561 MAY 15 2006 3. Nam HJ, Sasaki T, Koshizaki N Optical CO gas sensor using a cobalt oxide thin film prepared by pulsed laser deposition under various argon pressures JOURNAL OF PHYSICAL CHEMISTRY B 110 (46): 23081-23084 NOV 23 2006 4. Thin chalcogenide films prepared by pulsed laser deposition - new amorphous materials applicable in optoelectronics and chemical sensors: Frumar M, Frumarova B, Nemec P, et al. 17th University Conference on Glass Science, JUN 26- 30, 2005 Penn State Univ, University Pk, PA JOURNAL OF NON-CRYSTALLINE SOLIDS Volume: 352 Issue: 6-7 Pages: 544-561 MAY 15 2006 5. Study of laser-induced plasma shock waves by the probe beam deflection technique Qian Y, Lu J, Ni XW CHINESE OPTICS LETTERS Volume: 7 Issue: 5 Pages: 410-412 Published: MAY 10 2009 6. In situ monitoring the pulse CO2 laser interaction with 316-L stainless steel using acoustical signals and plasma analysis Author(s): Khosroshahi ME, Pour FA, Hadavi M, et al. Source: APPLIED SURFACE SCIENCE Volume: 256 Issue: 24 Pages: 7421-7427 Published: OCT 1 2010 7. The Usage of Sigma-Delta A/D in Langmuir Probe Author(s): Zhu, Yifeng; Yang, Xu; Shi, Lei; et al. Book Editor(s): Jin, D; Lin, S Conference: Conference on Electronic Commerce, Web Application and Communication Location: Wuhan, PEOPLES R CHINA Date: MAR 17-18, 2012 Sponsor(s): Int Sci & Educ Res Assoc; VIP Informat Conf Ctr; Beijing Gireda Res Ctr Source: ADVANCES IN ELECTRONIC COMMERCE, WEB APPLICATION AND COMMUNICATION, VOL 2 Book Series: Advances in Intelligent and Soft Computing Volume: 149 Pages: 523-528 Published: 2012 8. Vegelj, D., & Možina, J. (2013). Laser marking of a laminated surface characterized by an optodynamic method. Applied Physics A, 1-5. 9. Gregorčič, P., Diaci, J., & Možina, J. Two-dimensional measurements of laser-induced breakdown in air by high-speed two-frame shadowgraphy. Applied Physics A, 1-7. 10. Khosroshahi, M. E., Hadavi, M., & Mahmoodi, M. (2010). In situ monitoring the pulse CO< sub> 2 laser interaction with 316-L stainless steel using acoustical signals and plasma analysis. Applied Surface Science, 256(24), 7421-7427. 16 Nombre Completo (Apellidos y Nombres): Sobral, Hugo Martín Fecha de Actualización: marzo de 2014

12 F. Bredice, D. Orzi, D. Schinca, H. Sobral, M.Villagrán-Muniz, 2002, “Characterization of pulsed laser generated plasma through its perturbation in an electric field”, IEEE Transactions on Plasma Science, vol.30, no.6, pp.2139-43. 1. Akyuz M, Rahman M, Larsson A, et al., Characteristics of laser-triggered electric discharges in air, IEEE TRANSACTIONS ON DIELECTRICS AND ELECTRICAL INSULATION 12 (5): 1060-1070 OCT 2005 2. Nassef OA, Elsayed-Ali HE, Spark discharge assisted laser induced breakdown spectroscopy, SPECTROCHIMICA ACTA PART B-ATOMIC SPECTROSCOPY 60 (12): 1564-1572 DEC 2005. 3. Laser-Induced Plasma in Liquid Conduction Cell: Alterations in Current-to-Voltage Characteristics: Espejo V, Bertuccelli D, Ranea-Sandoval HF IEEE TRANSACTIONS ON PLASMA SCIENCE Volume: 38 Issue: 2 Pages: 86-91 FEB 2010 4. Dependence of Cm on the composition of solid binary propellants in ablative laser propulsion Author(s): Rinaldi CA, Boggio NG, Rodriguez D, et al. Source: APPLIED SURFACE SCIENCE Volume: 257 Issue: 6 Pages: 2019-2023 Published: JAN 1 2011 5. Laser ablation assisted spark induced breakdown spectroscopy on soil samples Author(s): Li KX, Zhou WD, Shen QM, et al. Source: JOURNAL OF ANALYTICAL ATOMIC SPECTROMETRY Volume: 25 Issue: 9 Pages: 1475-1481 Published: 2010 6. J. Álvarez, P. Pacheco, R. Sarmiento, et al: Caracterización De Un Plasma-Láser En Aire Empleando Un Circuito RC, Revista Colombiana de Física, Vol. 43, No.1 de 2011. 7. Laser Plasma Generation in Liquids. Possible Perturbations of the Boundary Layer Dynamics in a Metallic Surface in a Cell Filled With Conducting Liquid, Bertuccelli Daniela; Ranea-Sandoval Hector F.; Espejo Viviana, IEEE TRANSACTIONS ON PLASMA SCIENCE Volume: 39 Issue: 7 Pages: 1631-1634 DOI: 10.1109/TPS.2011.2142328 Published: JUL 2011 8. Diagnostics of laser plasma plume dynamics within an electrically biased confining cavity, Yeates P.; Kennedy E. T., JOURNAL OF APPLIED PHYSICS Volume: 110 Issue: 6 Article Number: 063303 DOI: 10.1063/1.3638697 Published: SEP 15 2011 9. Electric field-perturbation measurement of the interaction between two laser-induced plasmas Author(s): Sanchez-Ake, C.; Bredice, F.; Villagran-Muniz, M. Source: REVIEW OF SCIENTIFIC INSTRUMENTS Volume: 83 Issue: 2 Article Number: 023504 DOI: 10.1063/1.3683453 Part: Part 1 Published: FEB 2012 10. On-Line Estimation of Laser-Drilled Hole Depth Using a Machine Vision Method Author(s): Ho, Chao-Ching; He, Jun-Jia; Liao, Te-Ying, SENSORS Volume: 12 Issue: 8 Pages: 10148-10162 DOI: 10.3390/s120810148 Published: 2012 11 Chang, Y. J., Ho, C. C., Hsu, J. C., Tseng, G. R., & Kuo, C. L. (2013). Detection of laser induced plasma with interdigital electrodes in laser material processing. Optics and Lasers in Engineering. 12 Sarmiento, R., Bredice, F., Pacheco, P., & Álvarez, J. (2011). Caracterización De Un Plasma-Láser En Aire Empleando Un Circuito RC. Revista Colombiana de Física, 43(1), 40.

11. H. Sobral, M. Villagrán-Muniz, R. Navarro-González, E. Camps, 2002, “Experimental simulation of a doubled return-stroke lightning flash by laser”, Geophysical Research Letters, vol 29, no. 23, pp. 2086-2089. 1. Rahman M, Cooray V A study of NOx production in air heated by laser discharges: Effect of energy, wavelength, multiple discharges and pressure OPTICS AND LASER TECHNOLOGY 40 (1): 208-214 FEB 2008

10. R. Navarro-González, M. Villagrán-Muniz, H. Sobral, L. T. Molina y Mario Molina, 2001, “The physical mechanism of nitric oxide formation in simulated lightning”, Geophysical Research Letters. Vol. 28 , No. 20 , pp. 3867-3870.

1. Kurzweil Y, Livne E, Meerson B, Vorticity production and turbulent cooling of "hot channels" in gases: Three dimensions versus two dimensions PHYS FLUIDS 15 (3): 752-762 MAR 2003. 2. Rakov V, Uman A. “Lightning, Physics and Effects ”, Cambridge University Press, UK, Capítulo 15, 2003 3. Zhang XJ, Helsdon JH, Farley RD, Numerical modeling of lightning-produced NOx using an explicit lightning scheme: 1. Two-dimensional simulation as a "proof of concept", J GEOPHYS RES-ATMOS 108 (D18): A1-A20 SEP 19 2003 4. Gornushkin IB, Stevenson CL, Galbacs G, et al., Measurement and modeling of ozone and nitrogen oxides produced by laser breakdown in oxygen-nitrogen atmospheres, APPL SPECTROSC 57 (11): 1442-1450 NOV 2003 5. Babankova D, Civis S, Juha L, Chemical consequences of laser-induced dielectric breakdown in molecular gases, CHEMICKE LISTY 99 (2): 109-115 2005 6. Weinrotter, M., Kopecek, H., Tesch, M., Wintner, E., Lackner, M., Winter, F., Laser ignition of ultra-lean methane/hydrogen/air mixtures at high temperature and pressure, Experimental Thermal and Fluid Science 29 (5) , 569-577, 2005. 7. Labrador LJ, von Kuhlmann R, Lawrence MG The effects of lightning-produced NOx and its vertical distribution on atmospheric chemistry: sensitivity simulations with MATCH-MPIC ATMOSPHERIC CHEMISTRY AND PHYSICS 5: 1815-1834 JUL 22 2005

17 Nombre Completo (Apellidos y Nombres): Sobral, Hugo Martín Fecha de Actualización: marzo de 2014

8. Production of low molecular weight hydrocarbons by volcanic eruptions on early Mars, Segura, A., Navarro-González, R. Origins of Life and Evolution of the Biosphere 35 (5), pp. 477-487, 2005. 9. Navarro-Gonzalez R, Mahan SA, Singhvi AK, et al. Paleoecology reconstruction from trapped gases in a fulgurite from the late Pleistocene of the Libyan Desert GEOLOGY 35 (2): 171-174 FEB 2007 10. Babankova D, Civis S, Juha L Chemical consequences of laser-induced breakdown in molecular gases PROGRESS IN QUANTUM ELECTRONICS 30 (2-3): 75-88 2006 11. Rahman M, Cooray V A study of NOx production in air heated by laser discharges: Effect of energy, wavelength, multiple discharges and pressure OPTICS AND LASER TECHNOLOGY 40 (1): 208-214 FEB 2008 12. Schumann U, Huntrieser H The global lightning-induced nitrogen oxides source ATMOSPHERIC CHEMISTRY AND PHYSICS 7 (14): 3823-3907 2007 13. Summers DP, Khare B Nitrogen fixation on early Mars and other terrestrial planets: Experimental demonstration of abiotic fixation reactions to nitrite and nitrate ASTROBIOLOGY 7 (2): 333-341 APR 2007 14. Inorganic Nitrogen Reduction and Stability under Simulated Hydrothermal Conditions, Brandes JA, Hazen RM, Yoder HSSource: ASTROBIOLOGY Volume: 8 Issue: 6 Pages: 1113-1126 Published: DEC 2008 15. Origine et évolution du méthane sur Titan, Diplôme d’Études Approfondies, Éric Hébrard, Universités Paris 7, Paris 12, Paris 6, Chambéry et Grenoble I, 2003 16. A Suggested Pioneer Organism for the Wachtershauser Origin of Life Hypothesis Author(s): Kundell FA Source: ORIGINS OF LIFE AND EVOLUTION OF BIOSPHERES Volume: 41 Issue: 2 Pages: 175-198 Published: APR 2011 17. Abiotic Nitrogen Fixation on Terrestrial Planets: Reduction of NO to Ammonia by FeS Author(s): Summers, David P.; Basa, Ranor C. B.; Khare, Bishun; et al. ASTROBIOLOGY Volume: 12 Issue: 2 Pages: 107-114 DOI: 10.1089/ast.2011.0646 Published: FEB 2012 18. Summers, D. P. (2012). The Prebiotic Chemistry of Nitrogen and the Origin of Life. In Genesis-In The Beginning (pp. 201-216). Springer Netherlands.

9. M. Villagrán-Muniz, H. Sobral, E. Camps, 2001, “Shadowgraphy and interferometry using a CW laser and a CCD of a laser-induced plasma in atmospheric air”, IEEE Transactions on Plasma Science, Vol. 29, no 4, pp. 613-616.

1. Cetinkaya C, Vanderwood R, Rowell M, Nanoparticle removal from substrates with pulsed-laser induced plasma and shock waves, J ADHES SCI TECHNOL 16 (9): 1201-1214 2002 2. Escobar-Alarcon L, Camps E, Haro-Poniatowski E, et al., Characterization of rear- and front-side laser ablation plasmas for thin-film deposition, APPL SURF SCI 197: 192-196 SEP 30 2002 3. Muhl S, Maya F, Rodil S, et al. Studies of pulsed high-current arcs used to prepare carbon films THIN SOLID FILMS 433 (1-2): 50-56 JUN 2 2003 4. Hohreiter V, Carranza JE, Hahn DW, Temporal analysis of laser-induced plasma properties as related to laser-induced breakdown spectroscopy, SPECTROCHIM ACTA B 59 (3): 327-333 MAR 31 2004 5 PR Juan, Temporal analysis of laser-induced plasma properties as related to laser-induced breakdown spectroscopy, Spectrochimica Acta Part B 59 (2004) 327–333 6. S. S. Harilal and M. S. Tillack, Laser plasma density measurements using interferometry, October2004, CER Technical Reports University of California, San Diego UCSD-ENG-114 (Fusion Division Center for Energy Research University of California, San Diego La Jolla, CA 92093-0417) 7. Zhang P, Bian BM, Li ZH, Fibre-coupling zig-zag beam deflection technology for investigation of attenuation process of laser- induced shock waves, CHINESE PHYSICS LETTERS 22 (9): 2426-2428 SEP 2005 8. The application of fiber-coupling zig-zag beam deflection method on the investigation of plasma shock waves, Zhang, P., Bian, B.-M., Li, Z.-H. Proceedings of SPIE - The International Society for Optical Engineering 6024, art. no. 60241C, 2005. 9. Laser-induced breakdown mechanisms of a glass microsphere, Lee, J. Proceedings of SPIE - The International Society for Optical Engineering 5629, pp. 519-525, 2005. 10Lee J, Becker MF, Keto JW Laser-induced breakdown of soda-lime glass microspheres using Nd : YAG laser OPTICS AND LASER TECHNOLOGY 39 (4): 835-839 JUN 2007 11 Okano D Detection of long-lived electrons around CO2-laser-produced plasma in atmospheric gases using symmetric double-probe system IEEE TRANSACTIONS ON PLASMA SCIENCE 35 (4): 1143-1148 Part 3 AUG 2007 12 Evolution of shock waves formed by laser-induced breakdown in air Zhang Y, Li YT, Zheng ZY, et al.Source: CHINESE PHYSICS Volume: 16 Issue: 12 Pages: 3728-3731 DEC 2007 13 Damage free particle removal from extreme ultraviolet lithography mask layers by high energy laser shock wave cleaning, Kim TG, Yoo YS, Kim TG, et al. JAPANESE JOURNAL OF APPLIED PHYSICS Volume: 47 Issue: 6 Pages: 4886-4889 Part: Part 2 JUN 2008 14 Experimental investigation of ultraviolet laser induced plasma density and temperature evolution in air Thiyagarajan M, Scharer JSource: JOURNAL OF APPLIED PHYSICS Volume: 104 Issue: 1 Article Number: 013303 JUL 1 2008 15 Experimental Investigation of 193-nm Laser Breakdown in Air, Thiyagarajan M, Scharer JESource: IEEE TRANSACTIONS ON PLASMA SCIENCE Volume: 36 Issue: 5 Pages: 2512-2521 Part: Part 3 Published: OCT 2008 16 Space-time characterization of laser plasma interactions in the warm dense matter regime, L.F. Cao, I. Uschmann, F. Zamponi, T. Kämpfer, A. Fuhrmann, E. Förster, A. Höll, R. Redmer , S. Toleikis , T. Tschentscher and S.H. Glenzer, Laser and Particle Beams (2007), 25:2:239-244 17 Investigation of 1.06 μm laser induced plasma in air using optical interferometry,Hongchao Zhanga, Jian Lu, Zhonghua Shen and Xiaowu Nia, Optics Communications, Volume 282, Issue 9, 1 May 2009, Pages 1720-1723 18 : Optical interferometric analysis of colliding laser produced air plasmas: Zhang HC, Lu J, Ni XW Source: JOURNAL OF APPLIED PHYSICS Volume: 106 Issue: 6 Article Number: 063308 SEP 15 2009 19 Dynamics of strong-field laser-induced microplasma formation in noble gases Romanov DA, Compton R, Filin A, et al. PHYSICAL REVIEW A Volume: 81 Issue: 3 Article Number: 033403 Published: MAR 2010

18 Nombre Completo (Apellidos y Nombres): Sobral, Hugo Martín Fecha de Actualización: marzo de 2014

20 A Novel Double-Exposure Shadowgraph Method for Observation of Optodynamic Shock Waves Using Fiber-Optic Illumination Author(s): Perhavec T, Diaci J Source: STROJNISKI VESTNIK-JOURNAL OF MECHANICAL ENGINEERING Volume: 56 Issue: 7-8 Pages: 477-482 Published: AUG 2010 21 Shock wave driven by high intensity nanosecond laser pulse in atmospheric air and 2-D determination of refractive index variations of hot core air, Mandieh M. H.; Nikbakht M.; Sobhani M., OPTICS COMMUNICATIONS Volume: 284 Issue: 19 Pages: 4828-4835 DOI: 10.1016/j.optcom.2011.05.025 Published: SEP 1 2011 22 Electric field-perturbation measurement of the interaction between two laser-induced plasmas: Sanchez-Ake, C.; Bredice, F.; Villagran-Muniz, M.: REVIEW OF SCIENTIFIC INSTRUMENTS Volume: 83 Article Number: 023504 DOI: 10.1063/1.3683453 Part: Part 1 Published: FEB 2012 23 Characterization of Portable Resistive Barrier Plasma Jet and Its Direct and Indirect Treatment for Antibiotic Resistant Bacteria and THP-1 Leukemia Cancer Cells Author(s): Thiyagarajan, Magesh; Sarani, Abdollah; Gonzales, Xavier Source: IEEE TRANSACTIONS ON PLASMA SCIENCE Volume: 40 Issue: 12 Pages: 3533-3545 DOI: 10.1109/TPS.2012.2222391 Part: Part 3 Published: DEC 2012 24 Experimental Investigation of 1064-nm IR Laser-Induced Air Plasma Using Optical Laser Shadowgraphy Diagnostics Author(s): Thiyagarajan, Magesh; Williamson, Kenneth; Kandi, Anudeep Reddy Source: IEEE TRANSACTIONS ON PLASMA SCIENCE Volume: 40 Issue: 10 Special Issue: SI Pages: 2491-2500 DOI: 10.1109/TPS.2012.2206406 Part: Part 1 Published: OCT 2012 25 Zhang, H., Lu, J., Shen, Z., & Ni, X. (2013, May). Investigation of long pulse laser induced flame on Al in air using optical interferometry. In 2nd International Symposium on Laser Interaction with Matter (LIMIS 2012) (pp. 87960U-87960U). International Society for Optics and Photonics.

8. A. Raga, H. Sobral, M. Villagrán-Muniz, R. Navarro-González, E. Masciadri, 2001, “A numerical and experimental study of the development of turbulence in a low Mach number jet”, Monthly Notices of the Royal Astronomical Society, Vol. 324, no.1, pp.206-12.

1. Raga AC, Noriega-Crespo A, Velazquez PF, The X-ray luminosities of Herbig-Haro objects, ASTROPHYS J 576 (2): L149-L152 Part 2 SEP 10 2002 2. Masciadri E, Velazquez PF, Raga AC, et al. Analytic and numerical models for the knots along the HH 111 jet, ASTROPHYS J 573 (1): 260-269 Part 1 JUL 1 2002 3. Foster JM, Wilde BH, Rosen PA, et al. Supersonic jet and shock interactions, PHYS PLASMAS 9 (5): 2251-2263 Part 2 MAY 2002 4. Lebedev SV, Chittenden JP, Beg FN, et al. Laboratory astrophysics and collimated stellar outflows: The production of radiatively cooled hypersonic plasma jets ASTROPHYS J 564 (1): 113-119 Part 1 JAN 1 2002 5. Raga AC, Dal Pino EMD, Noriega-Crespo A, et al., Jet/cloud collision, 3D gasdynamic simulations of HH 110, ASTRON ASTROPHYS 392 (1): 267-276 SEP 2002 6. Raga AC, Velazquez PF, Canto J, et al., The time-dependent ejection velocity histories of HH 34 and HH 111, ASTRON ASTROPHYS 395 (2): 647-656 NOV 2002 7. Velazquez PF, Koenigsberger G, Raga AC, A supernova remnant collision with a stellar wind, ASTROPHYS J 584 (1): 284-292 Part 1 FEB 10 2003. 8. Noriega-Crespo A, Raga AC, Masciadri E, HH111STIS observations and their analysis using analytical and numerical models, ASTROPHYS SPACE SCI 287 (1-4): 79-82 2003 9. Velazquez PF, Martinell JJ, Raga AC, et al., Effects of thermal conduction on the X-ray and synchrotron emission from supernova remnants, ASTROPHYS J 601 (2): 885-895 Part 1 FEB 1 2004. 10. Raga AC, Riera A, Masciadri E, et al., A variable-velocity, precessing jet model for HH 32, ASTRON J 127 (2): 1081- 1088 FEB 2004 11. Raga AC, Reipurth B,Herbig-Haro jets emerging from a neutral cloud into a HII region, REVISTA MEXICANA DE ASTRONOMIA Y ASTROFISICA 40 (1): 15-23 APR 2004 12. Belan M, De Ponte S, Massaglia S, et al., Experiments and numerical simulations on the mid-term evolution of hypersonic jets, ASTROPHYSICS AND SPACE SCIENCE 293 (1-2): 225-232 2004 13. Lebedev SV, Ampleford D, Ciardi A, et al., Jet deflection via crosswinds: Laboratory astrophysical studies, ASTROPHYSICAL JOURNAL 616 (2): 988-997 Part 1 DEC 1 2004 14. Raga AC, Williams DA, Lim AJ The formation of H-2 in variable Herbig-Haro jets REVISTA MEXICANA DE ASTRONOMIA Y ASTROFISICA 41 (1): 137-146 APR 2005 15. Frank A, Blackman EG, Cunningham A, et al. A HED laboratory astrophysics testbed comes of age: JET deflection via cross winds ASTROPHYSICS AND SPACE SCIENCE 298 (1-2): 107-114 JUN 2005 16. A.H. Cerqueira, P.F.Vel´azquez, A.C. Raga, M.J. Vasconcelos and F. De Colle, Emission lines from rotating proto-stellar jets with variable velocity profiles, Astronomy & Astrophysics manuscript no. aa4110-05 (2005) 17. Emission lines from rotating proto-stellar jets with variable velocity profiles: I. Three-dimensional numerical simulation of the non-magnetic case, Cerqueira, A.H., Velázquez, P.F., Raga, A.C., Vasconcelos, M.J., De Colle, F. Astronomy and Astrophysics 448 (1), pp. 231-241, 2006 18. Cerqueira AH, Canto J, Raga AC, et al. Shadows and photoevaporated flows from neutral clumps exposed to two ionizing sources REVISTA MEXICANA DE ASTRONOMIA Y ASTROFISICA 42 (2): 203-215 OCT 2006 19. Raga AC, De Colle F, Kajdic P, et al.High resolution simulations of a variable HH jet ASTRONOMY & ASTROPHYSICS 465 (3): 879-885 APR 2007 20. Shumlak U, Nelson BA, Balick B Plasma jet studies via the flow Z-pinch ASTROPHYSICS AND SPACE SCIENCE 307 (1-3): 41-45 JAN 2007

19 Nombre Completo (Apellidos y Nombres): Sobral, Hugo Martín Fecha de Actualización: marzo de 2014

21. 3D numerical simulations of photodissociated and photoionized disks Author(s): Vasconcelos MJ, Cerqueira AH, Raga AC Source: ASTRONOMY & ASTROPHYSICS Volume: 527 Article Number: A86 Published: MAR 2011 22. Adaptive grids simulations of ionized flows Author(s): Raga AC, Velazquez PF, De Colle F, et al. Conference Information: 11th Latin American Workshop on Plasma Physics, DEC 05-09, 2006 Mexico City, MEXICO PLASMA AND FUSION SCIENCE Book Series: AIP CONFERENCE PROCEEDINGS Volume: 875 Pages: 320-325 Published: 2006 23. Radial velocity asymmetries from jets with variable velocity profiles Author(s): Cerqueira AH, Velazquez PF, Ragas AC, et al. Conference Information: 11th Latin American Workshop on Plasma Physics, DEC 05-09, 2006 Mexico City, MEXICO Source: Plasma and Fusion Science Book Series: AIP CONFERENCE PROCEEDINGS Volume: 875 Pages: 285-288 Published: 2006

7. P. Velázquez, A. Raga, H. Sobral, M. Villagran-Muniz, R. Navarro-González, 2001, "Laboratory experiments and numerical models of interacting explosions", Revista Mexicana de Astronomía y Astrofísica, Vol. 37, no 1, pp. 87-94.

1. Raga AC, Velazquez PF, Canto J, et al., The time-dependent ejection velocity histories of HH 34 and HH 111, ASTRON ASTROPHYS 395 (2): 647-656 NOV 2002 2. Velazquez PF, Koenigsberger G, Raga AC, A supernova remnant collision with a stellar wind, ASTROPHYS J 584 (1): 284-292 Part 1 FEB 10 2003. 3. Velazquez PF, Martinell JJ, Raga AC, et al., Effects of thermal conduction on the X-ray and synchrotron emission from supernova remnants, ASTROPHYS J 601 (2): 885-895 Part 1 FEB 1 2004 4. Raga AC, Reipurth B Herbig-Haro jets emerging from a neutral cloud into a HII region, REVISTA MEXICANA DE ASTRONOMIA Y ASTROFISICA 40 (1): 15-23 APR 2004 5. Raga AC, Williams DA, Lim AJ The formation of H-2 in variable Herbig-Haro jets REVISTA MEXICANA DE ASTRONOMIA Y ASTROFISICA 41 (1): 137-146 APR 2005 6. A.H. Cerqueira, P.F.Vel´azquez, A.C. Raga, M.J. Vasconcelos and F. De Colle, Emission lines from rotating proto-stellar jets with variable velocity profiles, Astronomy & Astrophysicsmanuscript no. aa4110-05 (2005) 7. Williams RM, Chu YH, Supernova remnants in the magellanic clouds. VI. The DEM L316 supernova remnants, ASTROPHYSICAL JOURNAL 635 (2): 1077-1086 Part 1 DEC 20 2005 8. Cerqueira AH, Canto J, Raga AC, et al. Shadows and photoevaporated flows from neutral clumps exposed to two ionizing sources REVISTA MEXICANA DE ASTRONOMIA Y ASTROFISICA 42 (2): 203-215 OCT 2006 9. Velarde P, Garcia-Senz D, Bravo E, et al. Interaction of supernova remnants: From the circumstellar medium to the terrestrial laboratory PHYSICS OF PLASMAS 13 (9): Art. No. 092901 SEP 2006 10. Cerqueira AH, Velazquez PF, Raga AC, et al. Emission lines from rotating proto-stellar jets with variable velocity profiles - I. Three-dimensional numerical simulation of the non-magnetic case ASTRONOMY & ASTROPHYSICS 448 (1): 231-241 MAR 2006 11. Raga AC, De Colle F, Kajdic P, et al. High resolution simulations of a variable HH jet ASTRONOMY & ASTROPHYSICS 465 (3): 879-885 APR 2007 12. Cerqueira AH, Canto J, Raga AC, et al. Shadows and photoevaporated flows from neutral clumps exposed to two ionizing sources REVISTA MEXICANA DE ASTRONOMIA Y ASTROFISICA 42 (2): 203-215 OCT 2006 13. Velarde P, Garcia-Senz D, Bravo E, et al. Interaction of supernova remnants: From the circumstellar medium to the terrestrial laboratory PHYSICS OF PLASMAS 13 (9): Art. No. 092901 SEP 2006 14. THE XMM-NEWTON X-RAY EMISSION OF THE SUPERNOVA REMNANT N 120 IN THE LARGE MAGELLANIC CLOUD Reyes-Iturbide J, Rosado M, Velazquez PF ASTRONOMICAL JOURNAL Volume: 136 Issue: 5 Pages: 2011-2021 NOV 2008 15. Three-dimensional numerical model of the Omega Nebula (M17): simulated thermal X-ray emission Reyes-Iturbide J, Velazquez PF, Rosado M, et al. MONTHLY NOTICES OF THE ROYAL ASTRONOMICAL SOCIETY Volume: 394 Issue: 2 Pages: 1009-1015 APR 1 2009 16. 3D numerical simulations of photodissociated and photoionized disks Author(s): Vasconcelos MJ, Cerqueira AH, Raga AC Source: ASTRONOMY & ASTROPHYSICS Volume: 527 Article Number: A86 Published: MAR 2011

6. H. Sobral, M Villagran Muniz, R. Navarro González y A. Raga, 2000, “Temporal evolution of the shock wave and hot core air in laser induced plasma”, Applied Physics Letters, Vol. 77, no 20, pp. 3158-3160.

1. Cetinkaya C, Vanderwood R, Rowell M, Nanoparticle removal from substrates with pulsed-laser induced plasma and shock waves, J ADHES SCI TECHNOL 16 (9): 1201-1214 2002 2. Desch SJ, Borucki WJ, Russell CT, et al. Progress in planetary lightning, REP PROG PHYS 65 (6): 955-997 JUN 2002 3. Kurzweil Y, Livne E, Meerson B Generation of vorticity and turbulent cooling of "hot channels" in gases PHYS FLUIDS 14 (3): 1030-1041 MAR 2002 4. Liu ZW, Steckman GJ, Psaltis D, Holographic recording of fast phenomena, APPL PHYS LETT 80 (5): 731-733 FEB 4 2002 5. Liu ZW, Centurion M, Panotopoulos G, et al., Holographic recording of fast events on a CCD camera, OPT LETT 27 (1): 22-24 JAN 1 2002 6. Navarro-Gonzalez R, Ramirez SI, de la Rosa JG, et al, Production of hydrocarbons and nitriles by electrical processes in Titan's atmosphere, ADV SPACE RES 27 (2): 271-282 2001.

20 Nombre Completo (Apellidos y Nombres): Sobral, Hugo Martín Fecha de Actualización: marzo de 2014

7. Navarro-Gonzalez R, Villagrán Muniz M, Effect of Beam Waist on Shock Properties of Laser-Induced Plasmas in air by the Photoacustic Probe Beam Deflection Method, ANAL SCI 17: S118-S121, 2002 8. W. T. Cathey and E.R. Dowski, Fast holographic recording using angle multiplexing, SPIE’s International Technical Group Newletter, Optics in Information System, 13, 6-8, May 2002. 9. Colao F, Lazic V, Fantoni R, et al., A comparison of single and double pulse laser-induced breakdown spectroscopy of aluminum samples, SPECTROCHIM ACTA B 57 (7): 1167-1179 JUL 31 2002 10. R. Vanderwood, C. Cetinkaya, J. Lin, Laser Cleaning Methods for Sub-ym Particle Removal, A2C2 Magazine, June 2002 11. Holographic techniques for recording ultrafast events, Centurion, M., Liu, Z., Steckman, G.J., Panotopoulos, G., Hong, J., Psaltis, D. Proceedings of SPIE - The International Society for Optical Engineering 4737, pp. 44-50, 2002 12. Raga AC, Dal Pino EMD, Noriega-Crespo A, et al., Jet/cloud collision, 3D gasdynamic simulations of HH 110, ASTRON ASTROPHYS 392 (1): 267-276 SEP 2002 13. Raga AC, Velazquez PF, Canto J, et al., The time-dependent ejection velocity histories of HH 34 and HH 111, ASTRON ASTROPHYS 395 (2): 647-656 NOV 2002 14. Raga AC, Raga GB, Canto J, et al.,Atmospheric expansion wave simulations of Popocatepetl explosions, J GEOPHYS RES-ATMOS 107 (D16): art. no. 4304 AUG 27 2002 15. Velazquez PF, Koenigsberger G, Raga AC, A supernova remnant collision with a stellar wind, ASTROPHYS J 584 (1): 284-292 Part 1 FEB 10 2003 16. Kurzweil Y, Livne E, Meerson B, Vorticity production and turbulent cooling of "hot channels" in gases: Three dimensions versus two dimensions, PHYS FLUIDS 15 (3): 752-762 MAR 2003 17. Vanderwood R, Cetinkaya C, Nanoparticle removal from trenches and pinholes with pulsed-laser induced plasma and shock waves, J ADHES SCI TECHNOL 17 (1): 129-14, 7 2003. 18. Rakov V, Uman A. “Lightning, Physics and Effects ”, Cambridge University Press, UK, Capítulo 15, 2003 19. F.Colao, L. Fornarini, V.Lazic, R.Fantoni, Double pulse laser induced plasma spectroscopy on metallic alloys, Proc of Frontiers in Low Temperature Plasma Diagnostic V, pp. 135-139, 2003. 20. Perez-Tijerina E, Machorro R, Bohigas J, Wide-field spectroscopy for optical characterization of the pulsed laser deposition plume, REV SCI INSTRUM 75 (2): 455-461 FEB 2004 21. Velazquez PF, Martinell JJ, Raga AC, et al.,Effects of thermal conduction on the X-ray and synchrotron emission from supernova remnants,ASTROPHYS J 601 (2): 885-895 Part 1 FEB 1 2004 22. Raga AC, Riera A, Masciadri E, et al., A variable-velocity, precessing jet model for HH 32, ASTRON J 127 (2): 1081- 1088 FEB 2004 23. Raga AC, Reipurth B, Herbig-Haro jets emerging from a neutral cloud into a HII region, REVISTA MEXICANA DE ASTRONOMIA Y ASTROFISICA 40 (1): 15-23 APR 2004 24. Cetinkaya C, Peri MDM, Non-contact nanoparticle removal with laser induced plasma pulses, NANOTECHNOLOGY 15 (5): 435-440 MAY 2004 25. Kremeyer, K, Lines of pulsed energy for supersonic/hypersonic drag reduction: Generation and implementation, AIAA Paper , 12236-12246, 2004; disponible en línea: http://www.physics-math.com/aero/drag_reduction/ShockPDL_AIAA2004_0984.pdf 26. Zhang P, Bian BM, Li ZH, Fibre-coupling zig-zag beam deflection technology for investigation of attenuation process of laser-induced shock waves, CHINESE PHYSICS LETTERS 22 (9): 2426-2428 SEP 2005 27. De Giacomo A, Dell'Aglio M, Colao F, et al. Double-pulse LIBS in bulk water and on submerged bronze samples APPLIED SURFACE SCIENCE 247 (1-4): 157-162 JUL 15 2005 28. Raga AC, Williams DA, Lim AJ The formation of H-2 in variable Herbig-Haro jets REVISTA MEXICANA DE ASTRONOMIA Y ASTROFISICA 41 (1): 137-146 APR 2005 29. Lazic V, Colao F, Fantoni R, et al. Laser-induced breakdown spectroscopy in water: Improvement of the detection threshold by signal processing SPECTROCHIMICA ACTA PART B-ATOMIC SPECTROSCOPY 60 (7-8): 1002-1013 AUG 31 2005 30. A.H. Cerqueira, P.F.Vel´azquez, A.C. Raga, M.J. Vasconcelos and F. De Colle, Emission lines from rotating proto-stellar jets with variable velocity profiles, Astronomy & Astrophysicsmanuscript no. aa4110-05 (2005) 31. Recognition of archeological materials underwater by laser induced breakdown spectroscopy, Lazic, V., Colao, F., Fantoni, R., Spizzicchino, V. Spectrochimica Acta - Part B Atomic Spectroscopy 60 (7-8), pp. 1014-1024, 2005 32. Double-pulse LIBS in bulk water and on submerged bronze samples, De Giacomo, A., Dell'aglio, M., Colao, F., Fantoni, R., Lazic, V. Applied Surface Science 247 (1-4), pp. 157-162, 2005 33. Segura, A; Navarro-González, R, Production Of Low Molecular Weight Hydrocarbons By Volcanic Eruptions On Early Mars, Origins of Life and Evolution of the Biosphere, Volume 35, Number 5, October 2005, pp. 477-487(11) 34. Nassef OA, Elsayed-Ali HE, Spark discharge assisted laser induced breakdown spectroscopy, SPECTROCHIMICA ACTA PART B-ATOMIC SPECTROSCOPY 60 (12): 1564-1572 DEC 2005 35. Emission lines from rotating proto-stellar jets with variable velocity profiles: I. Three-dimensional numerical simulation of the non-magnetic case, Cerqueira, A.H., Velázquez, P.F., Raga, A.C., Vasconcelos, M.J., De Colle, F. Astronomy and Astrophysics 448 (1), pp. 231-241, 2006 36. Laser extinguishment of CH4-N2/air counterflow diffusion flame, Torikai, H., Kitajima, A., Takeuchi, M. Nihon Kikai Gakkai Ronbunshu, B Hen/Transactions of the Japan Society of Mechanical Engineers, Part B 72 (1), pp. 179-186, 2006 37. Zhou D, Cetinkaya C Molecular-level mechanisms of nanoparticle detachment in laser-induced plasma shock waves APPLIED PHYSICS LETTERS 88 (17): Art. No. 173109 APR 24 2006 38. Wang XL, Zhai HC, Mu GG Pulsed digital holography system recording ultrafast process of the femtosecond order OPTICS LETTERS 31 (11): 1636-1638 JUN 1 2006 39. Faro, Tiago Maria Carvalho Cunha de Brito e, Estudo e optimização do corte laser de alta velocidade em chapa metálica finaZhao R, Xu RQ, Shen ZH, et al. Dynamics of laser-induced shock wave by optical probe in air OPTIK 117 (7): 299- 302 2006 40. Cerqueira AH, Canto J, Raga AC, et al. Shadows and photoevaporated flows from neutral clumps exposed to two ionizing sources REVISTA MEXICANA DE ASTRONOMIA Y ASTROFISICA 42 (2): 203-215 OCT 2006. 41. Peri MDM, Devarapalli VK, Cetinkaya C Selective removal of 10-40-nm particles from silicon wafers using laser-induced plasma shockwaves JOURNAL OF ADHESION SCIENCE AND TECHNOLOGY 21 (3-4): 331-337 2007

21 Nombre Completo (Apellidos y Nombres): Sobral, Hugo Martín Fecha de Actualización: marzo de 2014

42. Lazic V, Colao F, Fantoni R, et al. Underwater sediment analyses by laser induced breakdown spectroscopy and calibration procedure for fluctuating plasma parameters SPECTROCHIMICA ACTA PART B-ATOMIC SPECTROSCOPY 62 (1): 30-39 JAN 2007 43. Raga AC, De Colle F, Kajdic P, et al. High resolution simulations of a variable HH jet ASTRONOMY & ASTROPHYSICS 465 (3): 879-885 APR 2007 44. Peri MDM, Varghese I, Zhou D, et al. Nanoparticle removal using laser-induced plasma shock waves PARTICULATE SCIENCE AND TECHNOLOGY 25 (1): 91-106 JAN-FEB 2007 45. Torikai H, Kitajima A, Takeuchi M Laser extinguishment of CH4-N-2/Air counterflow diffusion flame JSME INTERNATIONAL JOURNAL SERIES B-FLUIDS AND THERMAL ENGINEERING 49 (4): 1336-1344 Sp. Iss. SI NOV 2006 46. Shen XK, Sun J, Ling H, et al. Spectroscopic study of laser-induced Al plasmas with cylindrical confinement JOURNAL OF APPLIED PHYSICS 102 (9): Art. No. 093301 NOV 1 2007 47. Rahman M, Cooray V A study of NOx production in air heated by laser discharges: Effect of energy, wavelength, multiple discharges and pressure OPTICS AND LASER TECHNOLOGY 40 (1): 208-214 FEB 2008 48. Kim DbS, Oh B, Jang D, et al. Experimental and theoretical analysis of the laser shock cleaning process for nanoscale particle removal APPLIED SURFACE SCIENCE 253 (19): 8322-8327 JUL 31 2007 49. Shen XK, Sun J, Ling H, et al. Spatial confinement effects in laser-induced breakdown spectroscopy APPLIED PHYSICS LETTERS 91 (8): Art. No. 081501 AUG 20 2007 50. Pasquini C, Cortez J, Silva LMC, et al. Laser induced breakdown spectroscopy JOURNAL OF THE BRAZILIAN CHEMICAL SOCIETY 18 (3): 2007. 51. Kim, J.-I. and Walther, C. (2007) Laser-Induced Breakdown Detection, in Environmental Colloids and Particles: Behaviour, Separation and Characterisation, Volume 10 (eds K. J. Wilkinson and J. R. Lead), John Wiley & Sons, Ltd, Chichester, UK. doi: 10.1002/9780470024539.ch12 52. Efficient plasma and bubble generation underwater by an optimized laser excitation and its application for liquid analyses by laser-induced breakdown spectroscopy Lazic V, Jovicevic S, Fantoni R, et al. SPECTROCHIMICA ACTA PART B-ATOMIC SPECTROSCOPY Volume: 62 Issue: 12 Special Issue: Sp. Iss. SI Pages: 1433-1442 DEC 2007 53. Damage free particle removal from extreme ultraviolet lithography mask layers by high energy laser shock wave cleaning 54. Kim TG, Yoo YS, Kim TG, et al.Source: JAPANESE JOURNAL OF APPLIED PHYSICS Volume: 47 Issue: 6 Pages: 4886-4889 Part: Part 2 JUN 2008 55. Removal of nanoparticles with laser induced plasma Varghese I, Peri MDM, Dunbar T, et al. JOURNAL OF ADHESION SCIENCE AND TECHNOLOGY Volume: 22 Issue: 5-6 Pages: 651-674 2008 Investigation of 1.06 mu m laser induced plasma in air using optical interferometry Zhang HC, Lu J, Shen ZH, et al. OPTICS COMMUNICATIONS Volume: 282 Issue: 9 Pages: 1720-1723 MAY 1 2009. 56. Enhancement of LIBS signal by spatially confining the laser-induced plasma Author(s): Popov AM, Colao F, Fantoni R JOURNAL OF ANALYTICAL ATOMIC SPECTROMETRY Volume: 24 Issue: 5 Pages: 602-604 2009 57. Onset of Material Alterations Due to Laser-Induced Plasma Exposure in Nanofilms Deposited on Photomasks: Varghese I, Zhou D, Peri MDM, et al. IEEE TRANSACTIONS ON SEMICONDUCTOR MANUFACTURING Volume: 22 Issue: 4 Pages: 579-586 NOV 2009 58. Spectroscopy study of air plasma induced by IR CO2 laser pulses Camacho JJ, Santos M, Diaz L, et al.APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING Volume: 99 Issue: 1 Pages: 159-175 Published: APR 2010 59. Laser-induced optical breakdown applied for laser spark ignition Schwarz E, Gross S, Fischer B, et al. LASER AND PARTICLE BEAMS Volume: 28 Issue: 1 Pages: 109-119 MAR 2010 60. THz Air Photonics for Standoff Detection Author(s): Liu JL, Clough B, Dai JM, et al. Conference Information: 35th International Conference on Infrared, Millimeter and Terahertz Waves, SEP 05-10, 2010 Rome, ITALY Source: 35TH INTERNATIONAL CONFERENCE ON INFRARED, MILLIMETER, AND TERAHERTZ WAVES (IRMMW-THZ 2010) Pages: - Published: 2010 61. 3D numerical simulations of photodissociated and photoionized disks Author(s): Vasconcelos MJ, Cerqueira AH, Raga ACSource: ASTRONOMY & ASTROPHYSICS Volume: 527 Article Number: A86 Published: MAR 2011 62. Photoacoustic and spectroscopic characterization of the ablation process in orthogonal double-pulse configuration Author(s): Sobral H, Sanchez-Ake C, Sangines R, et al.Source: JOURNAL OF PHYSICS D-APPLIED PHYSICS Volume: 44 Issue: 8 Article Number: 085201 Published: MAR 2 2011 63. Laser-induced Breakdown Spectroscopy with High Detection Sensitivity Author(s): Shen XK, Ling H, Lu YF Conference Information: Conference on Laser-based Micro- and Nanopackaging and Assembly III, JAN 28-29, 2009 San Jose, CASource: LASER-BASED MICRO- AND NANOPACKAGING AND ASSEMBLY III Book Series: Proceedings of SPIE-The International Society for Optical Engineering Volume: 7202 Pages: - Published: 2009 64. UNDERWATER LIBS INVESTIGATIONS SETUP FOR METALS' IDENTIFICATION Author(s): Simileanu M, Radvan R, Puscas NSource: UNIVERSITY POLITEHNICA OF BUCHAREST SCIENTIFIC BULLETIN-SERIES A-APPLIED MATHEMATICS AND PHYSICS Volume: 72 Issue: 4 Pages: 209-216 Published: 2010 65. Laser-induced breakdown plasma-based sensors Author(s): Griffin ST Conference Information: Conference on Chemical, Biological, Radiological, Nuclear, and Explosives (CBRNE) Sensing XI, APR 06-08, 2010 Orlando, FLSource: CHEMICAL, BIOLOGICAL, RADIOLOGICAL, NUCLEAR, AND EXPLOSIVES (CBRNE) SENSING XI Book Series: Proceedings of SPIE-The International Society for Optical Engineering Volume: 7665 Pages: - Published: 2010 66. Laser-induced photoacoustics influenced by single-cycle terahertz radiation Author(s): Clough B, Liu JL, Zhang XCSource: OPTICS LETTERS Volume: 35 Issue: 21 Pages: 3544-3546 Published: NOV 1 2010 67. Laser-induced Breakdown Spectroscopy Combined with Spatial Confinement of Plasmas and Laser-induced Fluorescence for Trace-Materials Detection Author(s): Lu YF, Shen XK, Ling H Conference Information: ASME Micro/Nanoscale Heat and Mass Transfer International Conference, DEC 18-21, 2009 Shanghai, PEOPLES R CHINASource: MNHMT2009, VOL 1 Pages: 697-704 Published: 2010 68. High-speed two-frame shadowgraphy for velocity measurements of laser-induced plasma and shock-wave evolutionGregorcic Peter; Mozina Janez OPTICS LETTERS Volume: 36 Issue: 15 Pages: 2782-2784 Published: AUG 1 2011 69. Enhancement of optical emission from laser-induced plasmas by combined spatial and magnetic confinement Guo L. B.; Hu W.; Zhang B. Y.; et al. OPTICS EXPRESS Volume: 19 Issue: 15 Pages: 14067-14075 Published: JUL 18 2011

22 Nombre Completo (Apellidos y Nombres): Sobral, Hugo Martín Fecha de Actualización: marzo de 2014

70. Generation of high-temperature and low-density plasmas for improved spectral resolutions in laser-induced breakdown spectroscopy He X. N.; Hu W.; Li C. M.; et al.OPTICS EXPRESS Volume: 19 Issue: 11 Pages: 10997-11006 Published: MAY 23 2011 71. 3D numerical simulations of photodissociated and photoionized disks Vasconcelos M. J.; Cerqueira A. H.; Raga A. C. ASTRONOMY & ASTROPHYSICS Volume: 527 Article Number: A86 DOI: 10.1051/0004-6361/200913342 MAR 2011 72. Shock wave driven by high intensity nanosecond laser pulse in atmospheric air and 2-D determination of refractive index variations of hot core air, Mandieh M. H.; Nikbakht M.; Sobhani M., OPTICS COMMUNICATIONS Volume: 284 Issue: 19 Pages: 4828-4835 DOI: 10.1016/j.optcom.2011.05.025 Published: SEP 1 2011 73. High-speed two-frame shadowgraphy for velocity measurements of laser-induced plasma and shock-wave evolution Gregorcic, Peter; Mozina, Janez, OPTICS LETTERS Volume: 36 Issue: 15 Pages: 2782-2784 Published: AUG 1 2011. 74. Laser-induced breakdown spectroscopy with improved spectral resolutions through the generation of high-temperature and low-density plasmas, He, X. N.; Guo, L. B.; Xie, Z. Q.; et al., Bachmann, FG; Pfleging, W; Washio, K; et al. Conference: Conference on Laser-Based Micro- and Nanopackaging and Assembly VI (LBMP)/Photonics West (LASE) Location: San Francisco, CA Date: JAN 24-26, 2012, DOI: 10.1117/12.910352 Published: 2012 75. Physical mechanism for detecting a terahertz wave from acoustic emission enhancement in a gas plasma, Dai, Houmei; Liu, Jinsong; Wang, Shenglie; et al. JOURNAL OF MODERN OPTICS Volume: 59 Issue: 7 Pages: 663-666 DOI: 10.1080/09500340.2012.656147 Published: 2012 76. Laser air photonics: beyond the terahertz gap, Clough, Benjamin; Dai, Jianming; Zhang, Xi-Cheng, MATERIALS TODAY Volume: 15 Issue: 1-2 Pages: 50-58 Published: JAN-FEB 2012 77. Shock wave driven by high intensity nanosecond laser pulse in atmospheric air and 2-D determination of refractive index variations of hot core air: Mandieh, M. H.; Nikbakht, M.; Sobhani, M., OPTICS COMMUNICATIONS Volume: 284 Issue: 19 Pages: 4828-4835 DOI: 10.1016/j.optcom.2011.05.025 Published: SEP 1 2011 78. Reduced LIBS plasma model via thermodynamics Author(s): Griffin, Steven T.; Dent, Brandon Book Editor(s): Fountain, AW Conference: Conference on Chemical, Biological, Radiological, Nuclear, and Explosives (CBRNE) Sensing XIII Location: Baltimore, MD Date: APR 24-27, 2012 Sponsor(s): SPIE Source: CHEMICAL, BIOLOGICAL, RADIOLOGICAL, NUCLEAR, AND EXPLOSIVES (CBRNE) SENSING XIII Book Series: Proceedings of SPIE Volume: 8358 Article Number: 835812 DOI: 10.1117/12.919167 Published: 2012 79. Laser-induced breakdown spectroscopy with improved spectral resolutions through the generation of high-temperature and low-density plasmas Author(s): He, X. N.; Guo, L. B.; Xie, Z. Q.; et al. Book Editor(s): Bachmann, FG; Pfleging, W; Washio, K; et al. Conference: Conference on Laser-Based Micro- and Nanopackaging and Assembly VI (LBMP)/Photonics West (LASE) Location: San Francisco, CA Date: JAN 24-26, 2012 Sponsor(s): SPIE Source: LASER-BASED MICRO- AND NANOPACKAGING AND ASSEMBLY VI Book Series: Proceedings of SPIE Volume: 8244 Article Number: UNSP 82440H DOI: 10.1117/12.910352 Published: 2012 80. Review of THz wave air photonics X. Sun ; F. Buccheri ; J. Dai ; X.-C. Zhang Proc. SPIE 8562, Infrared, Millimeter- Wave, and Terahertz Technologies II, 856202 (December 5, 2012); doi:10.1117/12.2001257 81. The Prebiotic Chemistry of Nitrogen and the Origin of Life, David P. Summers, Genesis - In The Beginning Cellular Origin, Life in Extreme Habitats and Astrobiology Volume 22, 2012, pp 201-216, Springer. 82. Two-dimensional measurements of laser-induced breakdown in air by high-speed two-frame shadowgraphy, Gregorčič, P., Diaci, J., & Možina, J. (2012).. Applied Physics A: Materials Science & Processing, 1-7. 83. Harmon, R. S., Russo, R. E., & Hark, R. R. (2013). GEOLIBS–A Review of the Application of Laser-Induced Breakdown Spectroscopy for Geochemical and Environmental Analysis. Spectrochimica Acta Part B: Atomic Spectroscopy. 84. Guo, L. B., Hao, Z. Q., Shen, M., Xiong, W., He, X. N., Xie, Z. Q., ... & Lu, Y. F. (2013). Accuracy improvement of quantitative analysis by spatial confinement in laser-induced breakdown spectroscopy. Optics express, 21(15), 18188-18195. 85. Leela, C., Bagchi, S., Kumar, V. R., Tewari, S. P., & Kiran, P. P. (2013). Dynamics of laser induced micro-shock waves and hot core plasma in quiescent air. Laser and Particle Beams, 1-10. 86. Zhang, H., Lu, J., Shen, Z., & Ni, X. (2013, May). Investigation of long pulse laser induced flame on Al in air using optical interferometry. In 2nd International Symposium on Laser Interaction with Matter (LIMIS 2012) (pp. 87960U-87960U). International Society for Optics and Photonics. 87. Yang, L., Erdem, E., Zare-Behtash, H., & Kontis, K. (2012). Single Pulse Laser Energy Deposition in Quiescent Air and Hypersonic Flows, 18th AIAA/3AF International Space Planes and Hypersonic Systems and Technologies Conference

5. H. Sobral, M. Raineri, D. Schinca, M. Gallardo, y R. Duchowicz, 1999, "Excitation Mechanisms and Characterization of a Multi-Ionic Xenon Laser", IEEE Journal of Quantum Electronics, Vol. 35, no.9, pp. 1308-13.

1. Biemont E, Quinet P, Zeippen CJ, Transition probabilities in XeV, PHYSICA SCRIPTA 71 (2): 163-169 FEB 2005. 2. Gallardo M, Raineri M, Giuliani M., Lagorio C., Padilla S., Reyna Almandos J. Biemont E, Quinet P, ZeippenLÁSER de Xe NEUTRO y MULTI-IÓNICO UV – VIS – IR, Anales AFA Vol 16, pp 45-49, 2004 3 Biemont E, Clar M, Fivet V, et al. Lifetime and transition probability determination in xenon ions - The cases of XeVII and XeVIII EUROPEAN PHYSICAL JOURNAL D 44 (1): 23-33 JUL 2007 4 Important aspects of modem physics teaching approach through the use of a multi-ionic xenon laser Gallardo M, Laquidara AP, Almandos JR REVISTA BRASILEIRA DE ENSINO DE FISICA Volume: 29 Issue: 4 Pages: 535-542 OCT-DEC 2007 5 LÁSER de Xe NEUTRO y MULTI-IÓNICO UV – VIS – IR Gallardo M, Raineri M., Giuliani M., Lagorio C., Padilla S., Reyna Almandos J., Anales AFA vol 16 pp 45-49, 2004 6 GALLARDO, M.; LAQUIDARA, A.P. and REYNA ALMANDOS, J.. Abordaje de la enseñanza de aspectos importantes de la física moderna a traves del uso de un laser de xenon multi-ionico pulsado. Rev. Bras. Ens. Fis. [online]. 2007, vol.29, n.4, pp. 535-542. ISSN 0102-4744. 6 New energy levels, lifetimes and transition probabilities in four times ionized xenon (Xe V) Raineri M, Gallardo M, Padilla S, et al. JOURNAL OF PHYSICS B-ATOMIC MOLECULAR AND OPTICAL PHYSICS Volume: 42 Issue: 20 Article Number: 205004 OCT 28 2009 7 Spectral analysis of ionized noble gases and implications for astronomy and laser studies Almandos JR, Bredice F, Raineri M, et 23 Nombre Completo (Apellidos y Nombres): Sobral, Hugo Martín Fecha de Actualización: marzo de 2014

al. 9th International Conference on Atomic Spectroscopy and Oscillator Strengths for Astrophysical and Laboratory Plasma, AUG 07-10, 2007 Lund Univ, Lund Observatory & Phys Dept, Lund, SWEDEN PHYSICA SCRIPTA Volume: T134 Article Number: 014018 Published: MAY 2009 8 New energy levels, lifetimes and transition probabilities in four times ionized xenon (Xe V) Author(s): Raineri M, Gallardo M, Padilla S, et al.Source: JOURNAL OF PHYSICS B-ATOMIC MOLECULAR AND OPTICAL PHYSICS Volume: 42 Issue: 20 Article Number: 205004 Published: OCT 28 2009

4. H. Sobral, D. Schinca, M. Gallardo, y R. Duchowicz, 1999,"Time Dependent Collisional - Radiative Study of a Multi-Ionic Xenon Plasma", Journal of Applied Physics, Vol 85 N° 1, pp. 69-73.

1. Gallardo M., Raineri M., Giuliani M., Lagorio C., Padilla S., Reyna Almandos J. Biemont E, Quinet P, Zeippen, LÁSER de Xe NEUTRO y MULTI-IÓNICO UV – VIS – IR, Anales AFA Vol 16, pp 45-49, 2004

2. : Spectral analysis of ionized noble gases and implications for astronomy and laser studies Author(s): Almandos JR, Bredice F, Raineri M, et al. Conference Information: 9th International Conference on Atomic Spectroscopy and Oscillator Strengths for Astrophysical and Laboratory Plasma, AUG 07-10, 2007 Lund Univ, Lund Observatory & Phys Dept, Lund, SWEDENSource: PHYSICA SCRIPTA Volume: T134 Article Number: 014018 Published: MAY 2009

3. M. Gallardo, M. Raineri, J. Reyna Almandos, H. Sobral y F. Callegari, 1999, "Revised and extended analysis in four times ionized xenon XeV", Journal of Quantitative Spectroscopy and Radiative Transfer, Vol 61, N° 3, pp.319-327, 3

1. Gallardo M, Bredice F, Raineri M, et al., Extended analysis of the six-times ionized xenon, XeVII, EUR PHYS J D 15 (3): 307-314 SEP 2001. 2. Bertuccelli G, Di Rocco HO, Iriarte DI, et al., Experimental determination of transition probabilities of XeIV; Comparison with semiempirical calculations, PHYS SCRIPTA 62 (4): 277-281 OCT 2000. 3. Raineri M, Bredice F, Gallardo M, et al., New energy levels of the 4s(2)4p5s, 4s(2)4p4d and 4s(2)4p5p configurations of the Kr v spectrum, J PHYS B-AT MOL OPT 35 (16): 3411-3419 AUG 28 2002. 4. Saloman EB, Energy levels and observed spectral lines of xenon, Xe I through Xe LIV, JOURNAL OF PHYSICAL AND CHEMICAL REFERENCE DATA 33 (3): 765-921 SEP 2004 5. Biemont E, Quinet P, Zeippen CJ, Transition probabilities in XeV , PHYSICA SCRIPTA 71 (2): 163-169 FEB 2005 6. Sharpee B, Zhang Y, Williams R, et al.vs-Process abundances in planetary nebulae vASTROPHYSICAL JOURNAL 659 (2): 1265-1290 Part 1 APR 20 2007 7. Auger cascade processes in xenon and krypton studied by electron and ion spectroscopy, L Partanen - REPORT SERIES IN PHYSICAL SCIENCES Report No. 46 (2007), UNIVERSITY OF OULU, Finlandia. 8. New energy levels, lifetimes and transition probabilities in four times ionized xenon (Xe V) Raineri M, Gallardo M, Padilla S, et al. JOURNAL OF PHYSICS B-ATOMIC MOLECULAR AND OPTICAL PHYSICS Volume: 42 Issue: 20 Article Number: 205004 Published: OCT 28 2009 9. Spectral analysis of ionized noble gases and implications for astronomy and laser studies Almandos JR, Bredice F, Raineri M, et al. 9th International Conference on Atomic Spectroscopy and Oscillator Strengths for Astrophysical and Laboratory Plasma, AUG 07-10, 2007 Lund Univ, Lund Observatory & Phys Dept, Lund, SWEDEN PHYSICA SCRIPTA Volume: T134 Article Number: 014018 Published: MAY 2009 10. New energy levels, lifetimes and transition probabilities in four times ionized xenon (Xe V) Author(s): Raineri M, Gallardo M, Padilla S, et al.Source: JOURNAL OF PHYSICS B-ATOMIC MOLECULAR AND OPTICAL PHYSICS Volume: 42 Issue: 20 Article Number: 205004 Published: OCT 28 2009 11. Knie, A., Burbank, N., Schmidt, P., Ozga, C., & Ehresmann, A. (2012). Electron-Impact Induced Fluorescence for EUV Spectrometer-Detector Calibration. Journal of Electron Spectroscopy and Related Phenomena. 12. Knie, A. (2012). Photon induced inner-shell excitation processes of nitrous oxide probed by angle resolved fluorescence and Auger- Electron spectrometry. Kassel university press GmbH.

2. G. H. Cavalcanti, F. Luna, A. Trigueiros, F. Bredice, H. Sobral, R. Hutton, M. Wang, 1997, "The Vacuum Ultra Violet (VUV) Spectrum of Six Times Ionized Xenon, Xe VII", Journal of the Optical Society of America B, vol. 14, N° 10, pp. 2459-2462, 5.

1. Churilov SS, Joshi YN, Ryabtsev AN, Analysis of the thirteenth spectrum of neodymium, Nd XIII, PHYSICA SCRIPTA 71 (1): 43-47 JAN 2005. 2. Saloman EB, Energy levels and observed spectral lines of xenon, Xe I through Xe LIV, JOURNAL OF PHYSICAL AND CHEMICAL REFERENCE DATA 33 (3): 765-921 SEP 2004. 3. Zheng NW, Wang T, Ma DX, et al.,Simple method for the precise calculation of atomic energy levels of IB elements in the periodic table, INT J QUANTUM CHEM 87 (5): 293-302 APR 20 2002

24 Nombre Completo (Apellidos y Nombres): Sobral, Hugo Martín Fecha de Actualización: marzo de 2014

4. Churilov SS, Joshi YN, Revised and extended analysis of six times ionized xenon: XeVII, PHYS SCRIPTA 65 (1): 35-39 JAN 2002. 5. Gallardo M, Bredice F, Raineri M, et al., Extended analysis of the six-times ionized xenon, XeVII, EUR PHYS J D 15 (3): 307-314 SEP 2001 6. Gayasov R, Joshi YN, Revised and extended analysis of seven-times-ionized cesium: CsVIII, J OPT SOC AM B 16 (8): 1280-1285 AUG 1999 7. Wang M, Arnesen A, Hallin R, et al. Studies of the collision-based Xe VI and Xe VII spectra, J OPT SOC AM B 14 (12): 3277-3281 DEC 1997. 8. Biemont E, Clar M, Fivet V, et al. Lifetime and transition probability determination in xenon ions - The cases of XeVII and XeVIII EUROPEAN PHYSICAL JOURNAL D 44 (1): 23-33 JUL 2007

1. H. Sobral, D Schinca, R Duchowicz, y M. Gallardo, 1996, "Gain switching and oscillations in a ionic pulsed xenon laser", JEOS - Pure and Applied Optics A, Vol. 5, N° 6, pp. 1011-1020.

1. Gallardo M, Raineri M, Giuliani M, Lagorio C, Padilla S., Reyna Almandos J. Biemont E, Quinet P, Zeippen LÁSER de Xe NEUTRO y MULTI-IÓNICO UV – VIS – IR, Anales AFA Vol 16, pp 45-49, 2004

* Estudiantes que publicaron bajo mi dirección / tutoría.

Total de citas: 451 (excluyendo autocitas)

4.2 Artículos en revistas con arbitraje de circulación nacional

2. D. Schinca, H. Sobral, R. Duchowicz, y M. Gallardo, 1994 "Estudio de la salida multipulso de un láser iónico de xenón", Anales de la Asociación Física Argentina 1994

1. D Schinca, R Duchowicz, H Sobral, y M Gallardo, 1993, "Espectroscopía resuelta en tiempo de un láser iónico de Xe de pulso múltiple", Anales de la Asociación Física Argentina, año 1993.

1 LÁSER de Xe NEUTRO y MULTI-IÓNICO UV – VIS – IR Gallardo M, Raineri M., Giuliani M., Lagorio C., Padilla S., Reyna Almandos J., Anales AFA vol 16 pp 45-49, 2004

4.5 Memorias en extenso arbitradas en congresos internacionales

15 A. Robledo-Martinez, G. Palacios, A. Vera, H.M. Sobral, “Modelling sprites and blue jets in the lab through the discharge of a dielectric”, memorias 31st ICPIG, Granada, España, 2013, 4 pp.

25 Nombre Completo (Apellidos y Nombres): Sobral, Hugo Martín Fecha de Actualización: marzo de 2014 14 García Villarreal L*., Sobral H. Robledo Martínez A., “Construcción y caracterización de un láser pulsado iónico de Xenón”, Memorias VI Congreso Internacional de Ingeniería Física (2012), México DF, México, 6 pág.

13 A Robledo-Martinez, HM Sobral y A Ruiz-Meza, Electrical Discharges In Planetary Atmospheres, Proceedings of the 18th International Conference on Gas Discharges and Their Applications, 2010, Greifswald, Alemania, pp 530-533.

12 A. Robledo-Martinez, H. Sobral, A. Ruiz-Meza, H. Granados, “Measurement of the electronic temperature and resistivity in a pulsed CO2 discharge”, Proceedings of the 29th ICPIG, July 12-17, 2009, Cancún, México, pp 6-9.

11 A. Robledo-Martinez, A. Ruiz-Meza, H. Sobral, H. Granados and J. Austria, “Lightning Discharges in Variable-Pressure Carbon Dioxide”, Proceedings of the Seventeenth International Conference on Gas Discharges and Their Applications, Cardiff University, UK, pp. 525-528, 2008.

10. A. Robledo-Martinez, A. Ruiz-Meza, R. Vega, V. García, H Sobral y M. Villagrán, "Effect of the air pressure in breakdown under fast-front impulses", Proc. XVI International Conference on Gas Discharges and their Applications, Xi'an, China, pp 641-644 (2006).

9. R. Sanginés de Castro*, C. Sánchez Aké, H. Sobral, and M. Villagrán-Muniz, “Time resolved diagnostic of dual-pulsed laser ablation on graphite targets”, XI Latin American Workshop on Plasma Physics, Mexico City, 5-9 December, 2005, AIP Conference Proceedings, Vol 875 pp 519-522, 2006.

8 A. C. Raga, P. F. Velázquez, F. De Colle, A. Cerqueira, M. J. Vasconcelos, A. Esquivel, R. F. González, J. Martinell, J. Herrera, P. Kajdic, J. Cantó, R. Navarro- González, M. Villagrán-Muniz, H. Sobral, “Adaptive grid simulations of ionized flows” Mexico City, 5-9 December, 2005, AIP Conference Proceedings,vol 875 pp 320-325, 2006. 1 A latitude-dependent wind model for Mira's cometary head, Raga A. C.; Canto J.; De Colle F.; et al.,ASTROPHYSICAL JOURNAL LETTERS Volume: 680 Issue: 1 Pages: L45-L48 DOI: 10.1086/589651 Published: JUN 10 2008

7. A. C. Raga, J. Herrera, J. Martinell, P. F. Velázquez, M. Villagrán, H. Sobral, “The connection between laboratory and astrophysical jets”, Proc of Magnetic Fields in the Universe: from Laboratory and Stars to Primordial Structures Angra dos Reis (Brasil), 28 de noviembre - 3 Diciembre 2004, AIP Conference Proceedings Volume 784, pp. 195-204, septembre 2005.

6. M. Villagrán Muniz, H. Sobral, C. Sánchez Aké, R. Sanginés de Castro, E. Sterling, F. Bredice; “Diagnostics Techniques of Plasmas Produced by Laser Ablation”, Materials Science and Applied Physics, 2nd Mexican Meeting on Mathematical and Experimental Physics, AIP Conference Proceedings, vol 759, pp 14-27, 2005. 26 Nombre Completo (Apellidos y Nombres): Sobral, Hugo Martín Fecha de Actualización: marzo de 2014

5. A. Robledo-Martínez, H. Sobral, M. Villagrán, “Space-Charged Structure in Laser – Induced Breakdown under a Uniform D.C. Field”, pp. 833-836, Proc XV International Conference on Gas Discharges and their Applications, 2004.

4. A. C. Raga, H. Sobral, M Villagrán-Muniz, R. Navarro-González, S Curiel, L. F. Rodriguez and J. Cantó, 2001, “Astrophysical Jets”, “Computational Fluid Dynamics'', 4th UNAM Supercomputing Conference, ed. G. Cisneros World Scientific), pp. 28-39.

3. P. Velázquez, A C. Raga, H. Sobral, E. de la Fuente, M. Rosado, R. Navarro González, M. Villagrán Muniz, 2002, “Laser laboratory experiments, observations and numerical simulations of strong explosions”, Revista Mex. de Astronomía y Astrofísica (Serie de Conferencias), Vol 14, p.100.

2. M. Villagrán Muniz, H. Sobral, C. Sánchez Aké, L. Escobar , E. Camps, 2001, “Plasma ablation characterization by a laser beam deflection technique”, SPIE-Int. Soc. Opt. Eng. Proceedings of Spie - the International Society for Optical Engineering, Vol.4419, pp.102-5.

1. M. Villagran-Muniz, H. Sobral and E. Camps, 2000, "Pulsed plasma diagnostics by a new CCD technique", 10th International Congress on Plasma Physics (ICPP-2000), Quebec, Canada, Vol. II, pp. 544-547.

4.6 Memorias en extenso arbitradas en congresos nacionales

2 Arturo Robledo Martínez, H. Sobral, Mayo Villagrán-Muniz, Alfredo Ruiz Meza, Guillermo Garduño, Mediciones eléctricas y ópticas resueltas en el tiempo para impulso de rayo, RVP-AI/2005 – TPM-03, p 282, 2005; ponencia recomendada por el comité de técnicas de prueba y medición del capítulo de potencia del IEEE sección México y presentada en la reunión de verano, RVP-AI’2005, Acapulco, Gro., del 10 al 16 de julio de 2005.

1. M. Navarrete, H. Sobral, M. Villagrán-Muniz, “Medición del Coeficiente de Absorción Óptica en Líquidos y Polvos con la Técnica Optoacústica Pulsada Resuelta en Tiempo”, Memorias del Congreso de Instrumentación SOMI, 2005, México.

13. PARTICIPACIÓN EN PROYECTOS PATROCINADOS

- Corresponsable del proyecto de la DGAPA Nº IN119999, denominado “Estudios Exobiológicos del sistema Solar” (2000-2002), del área de las Ciencias Físico-Matemáticas y de las Ingenierías, siendo su responsable el Dr. Rafael Navarro-González.

- Responsable del proyecto de CONACyT J36836-E: “Espectroscopias de Absorción Resueltas en Tiempo”, (2002-2004).

27 Nombre Completo (Apellidos y Nombres): Sobral, Hugo Martín Fecha de Actualización: marzo de 2014 - Participante de los proyectos de CONACyT “Diagnósticos de plasmas inducidos por láser” (2001-2003), y de DGAPA “Ablación láser, estudio de una nueva configuración para la obtención de películas delgadas” (2001-2003).

- Corresponsable del proyecto de la DGAPA IN112402 denominado: “Espectroscopias Optoacústicas de Absorción con Láseres Pulsados” (2003-2005).

- Responsable del proyecto de CONACyT P47272-F “Emisión y Absorción de Plasmas de Ablación Inducidos por Láser” (2005-2009).

- Responsable del proyecto de la DGAPA IN104806-3 “Diagnóstico de plasmas de ablación inducidos por láser” (2006-2008).

- Responsable del proyecto de la DGAPA IN110109-3 “Caracterización de plasmas inducidos por descargas pulsadas” (2009-2011).

- Responsable proyecto CONACYT 103259, “Construcción y caracterización de un láser pulsado iónico de xenón para el estudio de plasmas” (2009).

- Responsable proyecto CONACYT 102364, “Plasmas de ablación para el análisis de la composición de aleaciones” (03-2010 a 02-2013).

-Responsable proyecto del ICyT PICSO 11-2, “Detección de sustancias químicas en agua por medio de Espectroscopía de plasmas inducidos por láser” (2012).

- Responsable proyecto PAPIIT-DGAPA IN101212-3 “Estudio de plasmas producidos en distintas atmósferas”, 2012-2014.

7. DOCENCIA Y FORMACION DE RECURSOS HUMANOS

7.1 Cursos impartidos:

7.1.1 En la UNAM

Licenciatura: Profesor: - Laboratorio de Óptica, Facultad de Ciencias, UNAM semestres: 2006-I, 2006-II, 2007-II, 2008-I, 2010-I, 2010-II, 2011-I, 2011-II, 2012-I, 2012-II, 2013-I, 2013-II, 2014-I, 2014-II. - Física Clásica III y Seminario de Optica, Facultad de Ciencias, UNAM, semestres 2000-I, 2000 - II, 2002 - II, 2003 –II, 2004-I, 2004-II, 2005-I, 2005-II, 2007-I, 2009-II. - “Láseres y Optoelectrónica”, Facultad de Ciencias, UNAM, semestre 2001-II - “Espectroscopía Láser”, Facultad de Ciencias, UNAM, semestre 2003-I

28 Nombre Completo (Apellidos y Nombres): Sobral, Hugo Martín Fecha de Actualización: marzo de 2014

Posgrado -“Métodos Experimentales de la Física”, Posgrado en Ciencias Físicas, UNAM, semestre 2006-II, 2007-II - Seminario de Instrumentación II, Maestría en Ingeniería Eléctrica, UNAM semestre 2007-II. -Trabajo de Investigación I, Maestría en Ingeniería Eléctrica, UNAM semestre 2008-I -Trabajo de Investigación II, Maestría en Ingeniería Eléctrica, UNAM semestre 2008-I -Taller de investigación, Maestría en Ingeniería Eléctrica, UNAM semestre 2013-I - Actividades Académicas orientadas a la titulación, Maestría en Ingeniería Eléctrica, UNAM semestre 2013-II. -Laboratorio Avanzado, Maestría en Ciencias (Física), UNAM, semestre 2013-II.

7.1.2 Fuera de la UNAM

Nivel Licenciatura: Ayudantía: -Ayudante Diplomado de Dedicación Simple Interino, por concurso de Física I (QBF), Facultad de Ciencias Exactas, UNLP desde el 1 de julio de 1997 hasta el 1 de junio de 1999. -Ayudante Diplomado de Dedicación Simple por concurso Física II-Física III (Electricidad, magnetismo y óptica), Facultad de Ingeniería, UNLP desde el 1 de junio de 1997 hasta el 1 de marzo de 1998 -Ayudante Diplomado de Dedicación Simple por designación, Física I (Física General: Mecánica, fluidos, termodinámica y ondas), Facultad de Ciencias Exactas, UNLP; desde el 3 de julio de 1995 hasta el 30 de abril de 1997.

7.2 Dirección de tesis

7.2.1 Tesis concluidas.

Doctorado

1. Ciro Márquez Herrera, “Caracterización de aleaciones base plata mediante la técnica de espectroscopia de emisión atómica con plasma por acoplamiento inductivo

29 Nombre Completo (Apellidos y Nombres): Sobral, Hugo Martín Fecha de Actualización: marzo de 2014 y ablación láser”, Doctorado en Metalurgia, Posgrado de Ingeniería, 2006, UNAM. Fecha de titulación: 16 de mayo de 2013.

Maestría.

3. Luis Ángel García Villarreal, “Construcción de un Láser Pulsado Nd: YAG para su uso en Espectroscopía de Plasmas Inducidos por Láser”, maestría en Instrumentación, Posgrado de Ingeniería, UNAM; finalización: 29 de noviembre de 2013

2 Heliodoro Vidal Velázquez, “Construcción y caracterización de un láser pulsado de xenón”, maestría en instrumentación, Posgrado de Ingeniería, UNAM; Finalización 6 de agosto de 2009.

1 Roberto Sanginés de Castro, “Diagnóstico Resuelto en Tiempo de Plasmas de Ablación de Grafito Inducidos con dos Láseres Pulsados Sincronizados”, Maestría en Física, Posgrado en Ciencias Físicas, UNAM, Finalización 14 de febrero de 2006.

Licenciatura.

8 Abigail Trujillo Vázquez, Facultad de Ciencias, UNAM, “Detección de trazas de elementos disueltos en agua mediante Espectroscopía de Rompimiento Inducido por Láser”, Lic Fisica, Fac. de Ciencias, UNAM, 2 de agosto de 2013.

7. Luis Angel García Villarreal: Láser pulsado de xenón: construcción, estudio espectroscópico de la emisión y caracterización del plasma”, Lic Fisica, Fac. de Ciencias, UNAM, 9 de febrero de 2011.

6. José Isabel Austria Castelán, “Caracterización de Películas nitruradas obtenidas con Descargas Eléctricas”, Lic. Ingeniería Eléctrica, UAM, 2009 (co-asesor).

5. Heliodoro Vidal Velázquez, “Caracterización de plasmas de ablación sobre muestras metálicas inducidos por láser”, Física, Facultad de Ciencias, UNAM, finalización 7 de febrero de 2008

4. Paola E. Ramos Alvarez, “Espectroscopía de Emisión de dos Plasmas de Ablación Inducidos por Láser”, Física, Facultad de Ciencias, UNAM, finalización 11 de noviembre de 2005.

3. Jazmín Ramírez González, “Espectroscopía de plasmas inducidos por láser”, Física, Facultad de Ciencias, 2002, Física, UNAM., Finalización 5 de diciembre de 2003

2. Roberto Sanginés de Castro, “Diagnóstico de relámpagos volcánicos simulados con láser”, Física, Facultad de Ciencias, 2002, Físico, UNAM, Finalización: agosto 2003. 30 Nombre Completo (Apellidos y Nombres): Sobral, Hugo Martín Fecha de Actualización: marzo de 2014

1. Citlali Sánchez-Aké, “Caracterización de plasmas de ablación láser por deflecto- metría“, Física, Facultad de Ciencias, Físico, 2001, UNAM. Finalización: mayo 2002.

7.2.2 Tesis en proceso.

Doctorado: Jesus Antonio Rangel Cárdenas, doctorado en Ciencias e Ingeniería de Materiales, Crecimiento de nanopartículas metálicas por medio de ablación láser en matrices nanoestructuradas, Inicio: 2013

Maestría: Abigail Trujillo Vázquez, Posgrado en Ciencias Físicas, UNAM; incio: 2013

Licenciatura: Ángela Camacho de la Rosa, 2014 “Caracterización espectroscopica de la emisión sobre blancos metálicos usando dos láseres retrasados temporalmente” Facultad de Ciencias, UNAM

7.3 Asesorías a estudiantes

Responsable de estancia posdoctoral CONACyT de Roberto Sanginés de Castro, “Espectroscopía de plasmas inducidos por láser”, septiembre de 2012 a agosto de 2013.

Responsable de estancia posdoctoral DGAPA de Roberto Sanginés de Castro, “Caracterización de plasmas inducidos por láser para el análisis de aleaciones”, septiembre de 2010 a agosto de 2012.

Director de tesis de doctorado de Paola Elizabeth Ramos Álvarez, “Influencia de la Estructura Cristalina en los Procesos de Ablación Láser de Halogenuros de Metales Alcalinos Térreos”, Doctorado en Ciencias e Ingeniería de Materiales, Posgrado en Ciencias e Ingeniería de Materiales, 2005-2006, UNAM.

Citlali Sánchez Aké, Doctorado, Posgrado en Ciencia e Ingeniería de Materiales, UNAM, desde diciembre de 2001 a julio 2007.

Enrique Sterling Black, Licenciatura, Física, Facultad de Ciencias, UNAM, 12/2002 a 07/2003. 31 Nombre Completo (Apellidos y Nombres): Sobral, Hugo Martín Fecha de Actualización: marzo de 2014

Edgar Álvarez-Zauco, Doctorado, Posgrado en Ciencia e Ingeniería de Materiales, UNAM, desde 07/2004 a 12/05

Doris Morejón,Nellar, Doctorado, Posgrado en Ciencia e Ingeniería de Materiales, UNAM, desde 08/2005 a 08/06.

7.4 Participación en comités tutorales y jurados.

Jurado del examen de grado de Rosa María Fajardo Miranda, “Mecanismos de aceleración de iones en una descarga de plasma focus”, Licenciatura en física, Facultad de Ciencias, UNAM; examen día 9 de enero de 2008.

Comité tutoral de Roberto Sanginés de Castro, “Interferometría de dos Colores de Plasmas de Ablación Inducidos por Láser”, Maestría en Física, Posgrado en Ciencias Físicas, desde julio de 2003, UNAM.

Comité tutoral de Francisco Antonio Godínez Rojano, “Sonoluminiscencia de una sola burbuja modelada con mecánica clásica no-lineal”, Posgrado de Maestría y Doctorado en Ingeniería, UNAM, desde junio de 2005.

Comité tutoral de Paola Elizabeth Ramos Álvarez, “Influencia de la Estructura Cristalina en los Procesos de Ablación Láser de Halogenuros de Metales Alcalinos Térreos”, Doctorado en Ciencias e Ingeniería de Materiales, Posgrado en Ciencias e Ingeniería de Materiales, 2005, UNAM.

Comité tutoral de Ciro Márquez, “Ablación Láser”, Doctorado en Metalurgia, Posgrado de Ingeniería, 2005, UNAM.

Jurado en examen de candidatura al grado de doctor de Ciro Márquez, “Ablación Láser”, Doctorado en Metalurgia, Posgrado de Ingeniería, 07 de junio de 2007.

Adicionalmente a ser jurado en los exámenes de los estudiantes que he dirigido he participado de los siguientes exámenes:

Sinodal del examen de maestría de José Francisco Hernández Valle, Posgrado de Maestría y Doctorado en Ingeniería, UNAM, 12 de octubre de 2006

32 Nombre Completo (Apellidos y Nombres): Sobral, Hugo Martín Fecha de Actualización: marzo de 2014 Sinodal del examen de candidatura al grado de Doctor de Francisco Antonio Godínez Rojano, “Sonoluminiscencia de una sola burbuja modelada con mecánica clásica no- lineal”, Posgrado de Maestría y Doctorado en Ingeniería, UNAM, 14 de Junio de 2006.

Sinodal del examen de candidatura al grado de Doctor de Citlali Sánchez Aké, posgrado en Ciencia e Ingeniería en Materiales, UNAM, 22 de julio de 2004.

Sinodal del examen de candidatura al grado de Doctor de Edgar Álvarez Zauco, posgrado en Ciencia e Ingeniería en Materiales, UNAM, 2 de diciembre de 2004.

7.5 Otras actividades de formación de recursos humanos

7.5.1 Servicio Social

Ángela Camacho de la Rosa, Facultad de Ciencias, UNAM, “Estudio de la emisión de plasmas de ablación producidos por láser.”, abril-noviembre de 2013.

Abigail Trujillo Vázquez, Facultad de Ciencias, UNAM, “: Caracterización óptica de plasmas producidos por láser”, junio-diciembre 2011.

Luis Ángel García, Física, Facultad de Ciencias, UNAM, “Construcción de la fuente de descarga de un láser pulsado de xenón”, marzo- septiembre de 2008.

Roberto Sanginés de Castro, Física, Facultad de Ciencias, UNAM, “Diagnóstico de relámpagos volcánicos simulados con láser”, febrero-septiembre 2002.

Citlali Sánchez-Aké, Física, Facultad de Ciencias, UNAM “Caracterización de plasmas de ablación láser”, abril- octubre de 2001.

7.5.2 Programas institucionales de formación de jóvenes (Jóvenes hacia la Investigación, Verano de la Investigación y otros)

Camille Le Men, “Diagnóstico de dos Plasmas Inducidos por Láser Sincronizados”, 17 de julio a 30 de septiembre de 2004, Escuela General de Ingenierías de Marsella, Prácticas Profesionales en el CCADET.

Marco Antonio Martínez Fuentes, “Fotografía de sombras de jets”, 2-9-2002 al 30-9-2002.

Karla Radillo Rolón, Medida de la velocidad de sonido en diversos materiales mediante técnicas fotoacústicas;, 12-9-01 al 09-10-01

33 Nombre Completo (Apellidos y Nombres): Sobral, Hugo Martín Fecha de Actualización: marzo de 2014

Jacquelín Sánchez Rodríguez, Elizabeth Tránsito Alejandro, Yadira León García “Espectroscopía de lámparas de neón”, 12-9-01 al 09-10-01.

8. PARTICIPACIÓN EN CONGRESOS, SIMPOSIOS Y OTROS EVENTOS ACADÉMICOS

8.1 Internacionales

50 7th Euro-Mediterranean Symposium of Laser Induced Breakdown Spectroscopy (EMLIBS), 16-20 de septiembre 2013, Bari, Italia, “Signal enhancement optimization in orthogonal Re-heating and Pre-ablation Double Pulse Laser Induced Breakdown Spectroscopy (DP-LIBS)”, V. Contreras, H. Sobral, R. Sanginés, A. Robledo-Martinez.

49 XXXI International Conference on Phenomena in Ionized Gases (ICPIG), 14-19 julio 2013, Granada España, ”Modelling sprites and blue jets in the lab through the discharge of a dielectric”, A. Robledo-Martinez, UG. Palacios, A. Vera, HM Sobral

48 XXII International Materials Research Congress, 11-15 agosto 2013, “Electronic properties of multi-layer thin films of fullerenes with tetraphenylporphyrine”, E. Martínez Lorán, E. Alavez Zauco, A Franco, HM Sobral.

47 7th International Conference on Laser Induced Breakdown Spectroscopy” (LIBS 2012), 29 septiembre a 4 de octubre de 2012, El Cairo, Egipto, “Trace analysis in ice by LIBS”. H. Sobral. A. Trujillo-Vázquez y R. Sanginés

46 VI Congreso Internacional de Ingeniería Física, México DF. México, 13-15 junio de 2012, “Construcción y caracterización de un láser pulsado iónico de Xenón”, L. García Villarreal, H. Sobral, A. Robledo-Martínez.

45 6th Euro-Mediterranean Symposium of Laser Induced Breakdown Spectroscopy (EMLIBS), Cesme, Turquía, 11-15 de septiembre de 2011, “Orthogonal Double-pulse LIBS: Effect of Sample Temperature in the Intensification Process”, H. Sobral, R. Sanginés, E. Alvarez-Zauco.

44 XXXVII Colloquium Spectroscopicum Internationale, 28 de agosto a 2 de septiembre de 2011, Río de Janeiro, Brasil, Quantitative determination of lead in

34 Nombre Completo (Apellidos y Nombres): Sobral, Hugo Martín Fecha de Actualización: marzo de 2014 plastic using LA-ICP OES, C Márquez, A Cárdenas, O. Jiménez, C. Guzmán, H Sobral.

43 18th International Conference on Gas Discharges and Their Applications, 5-10 septiembre de 2010, Greifswald, Alemania “Electrical Discharges In Planetary Atmospheres”, A Robledo-Martinez, HM Sobral y A Ruiz-Meza.

42 XXXVI Colloquium Spectroscopicum Internationale, 30 de agosto a 3 de septiembre de 2009, Budapest, Hungria, Skeleton human bone analysis by ICP-OES and laser ablation-ICP-OES, C Márquez, L Saldívar, AL Ramírez, H Sobral, C Serrano, L Escorcia, JA Limón.

41 XXIX International Conference on Phenomena in Ionized Gases, 12-17 julio de 2009, Cancún, Mexico, “Measurement of the electronic temperature and resistivity in a pulsed CO2 discharge”, A. Robledo-Martinez, A. Ruiz-Meza, H. Granados, H. Sobral.

40 17th Conference on Gas Discharges and Their Applications, Cardiff, Reino Unido, 7-12 de septiembre de 2008, “Lightning Discharges in Variable-Pressure Carbon Dioxide” A.Robledo-Martinez, A.Ruiz-Meza, H.Sobral, H.Granados and J.Austria.

39 10th Rio Symposium on Analytical Spectrometry, Salvador, Brasil, 7-12 de septiembre de 2008, “Chemical Analysis using LA-ICP-OES”, C. Márquez, H Sobral, L Saldivar, B Campillo.

38 VII International Symposium of the E.S.I.Q.I.E., Mexico DF, Mexico, 20-22 mayo de 2008, ““Stimulated emission and optical third order nonlinearity in ZnO nanorods”, M Trejo Valdez, H. Sobral, C. Torres Torres, P Santiago-Jacinto

36 9th International Conference on Laser Ablation, Tenerife, España, 24-28, septiembre de 2007, “Carbon thin film deposition by means of cross-beam-delayed pulsed laser ablation”, C. Sánchez Aké, H. Sobral, M. Villagrán-Muniz.

35 XXXV Colloquium Spectroscopicum Internationale, Xiamen, China, 23-37 de septiembre de 2007, “Chemical Characterization of Cu-Au alloys using Optical Emission Spectroscopy (ICP-OES)-Laser Ablation”, C. Márquez, H. Sobral, L. Saldivar.

34 EMSLIBS 2007, Euro-Mediterranean Symposia of Laser Induced Breakdown Spectroscopy, 10 al 13 de septiembre 2007, Paris, Francia, “Intensity Enhancement in Cross-beam Pulsed Laser Ablation using Two Orthogonal Targets”, H. Sobral, C.Sánchez-Aké, M. Villagrán-Muniz.

35 Nombre Completo (Apellidos y Nombres): Sobral, Hugo Martín Fecha de Actualización: marzo de 2014 33 Second Mexican Workshop on Nanostructured Materials, 15-18 mayo 2007, Puebla, Mexico, “One-dimension Core-Shell Zn/ZnO Structures Synthesized by Solvothermal Approach”.- M. Trejo, P. Santiago, L. Rendón, M. Villagran Muñiz, M. Sobral, and J. M. Hernández.

32 14th International Conference on Photoacoustic and Photothermal Phenomena, El Cairo, Egipto, 6 - 9, enero de 2007, “Monitoring of absorbing energy in laser ablation by photoacoustic”, M Villagrán Muniz, H Sobral, C Rinaldi y JC Ferrero.

31 9th Rio Symposium on Atomic Spectrometry, Barquisimeto, Venezuela del 5-10 de noviembre de 2006, “Analysis of Brazing Silver Alloys using ICP-Optical Emission Spectrometry – Laser Ablation”, C. Márquez, E. Astudillo, L. Saldivar, A. Rojas, A. Torres, H. Sobral.

30 48th Annual Meeting of the Division of Plasma Physics, Filadelfia, USA, 30 de octubre al 3 de noviembre de 2006, Expansion of a laser created plasma in a cusp magnetic field, A. Colette, W. Gekelman, M. Villagrán-Muniz, H. Sobral, J. Herrera.

29 I International Conference on Gas Discharges and their Applications, Xi’an, China,11-15 de septiembre de 2006, “Effect of the air pressure in breakdown under fast-front impulses”, A. Robledo-Martinez, A. Ruiz-Meza, R. Vega, V. García, H. Sobral and M. Villagrán.

28 International Conference on Laser Induced Plasma Spectroscopy and Applications (LIBS 2006), Montreal, Canadá, del 5 al 8 de septiembre 2006, “Electronic Density Determination of a Laser Generated Plasma through its Perturbation in an Electric Field”, F. Bredice, H. O. Di Rocco, H. Sobral and M. Villagrán-Muniz

27 5th International Conference on Photo-Excited Processes and Applications, Charlottesville, Virginia USA, 3-7 September 2006, “Carbon thin film deposition and plasma characterization of cross-beam pulsed-laser ablation”, C. Sánchez Aké , H. Sobral and M. Villagrán-Muniz.

26. XI Latin American Workshop on Plasma Physics, Mexico City, 5-9 December, 2005, “Time resolved diagnostic of dual-pulsed laser ablation on graphite targets”, R. Sanginés de Castro, C. Sánchez Aké, H. Sobral, and M. Villagrán-Muniz.

25. XI Latin American Workshop on Plasma Physics, Mexico City, 5-9 December, 2005, “Adaptive grid simulations of ionized flows” A. C. Raga, P. F. Velázquez, F. De Colle, A. Cerqueira, M. J. Vasconcelos, A. Esquivel, R. F. González, J. Martinell, J. Herrera, P. Kajdic, J. Cantó, R. Navarro-González, M. Villagrán-Muniz, H. Sobral.

24 8th Brazilian Meeting on Plasma Physics, 27th to 30th of November 2005, Niterói, Rio de Janeiro, Brazil, "Optical Depth effects in plasmas of Fe, Mn, and FeMn alloys

36 Nombre Completo (Apellidos y Nombres): Sobral, Hugo Martín Fecha de Actualización: marzo de 2014 produced by laser-induced plasmas." F. Bredice, F. O. Borges, H. O. Di Rocco, H. Sobral and M.Villagrán-Muniz,

23 XIV International Materials Research Congress 2005 (Siymposium 7), Asociación Mexicana De Ciencia De Materiales, Cancún, México, 21/08/2005. "Threshold Energy For Crystalization Of Wo3 Resolved By Pulsed Laser Photoacoustic” .Castañeda, R., Arroyo, R., Camacho, M. A., Sobral, H.

22. 8th International Conference on Laser Ablation, Banff, Canada, September 11-16, 2005, “Ion kinetic energy control in dual-pulsed laser ablation on graphite targets”, C Sánchez Aké, H Sobral, P Ramos-Alvarez, C Lemen and M Villagrán-Muniz,

21. 32nd IEEE International Conference on Plasma Science, 20-23 junio de 2005, Monterrey, California, “Negative Refractive Index in a Plasma Induced by Laser”, A. Robledo-Martínez, H. Sobral, M. Villagrán-Muniz.

20. Second Mexican Meeting on Theoretical and experimental Physics, Colegio de México, México D.F., 6-10 de septiembre, 2004, "Diagnostics Techniques of Plasmas Produced by Laser Ablation", M. Villagrán Muniz, H. Sobral, C. Sánchez-Aké, R. Sanginés de Castro, E. Sterling, F. Bredice.

19. 4th International Conference on Photo-Excited Processes and Applications, 5-9 Septiembre 2004, Lecce, Italia, “Diagnostic of a Laser-Induced Breakdown in a Uniform Electric Field using a Field Probe”, A. Robledo-Martínez, H. Sobral y M. Villagrán.

18. 4th International Conference on Photo-Excited Processes and Applications, 5-9 Septiembre 2004, Lecce, Italia, “Polymerization of C60 Fullerene Thin Films by UV Pulsed Laser Irradiation”, E. Alvarez-Zauco, H. Sobral, E. V. Basiuk (Golovataya- Dzhymbeeva), J.M. Saniger Blesa, M. Villagrán-Muniz.

17. XV International Conference on Gas Discharges and their Applications, 5-10 de septiembre 2004, Tolouse Francia, “Space-Charged Structure in Laser–Induced Breakdown under a Uniform D.C. Field”, A. Robledo-Martínez, H. Sobral, M. Villagrán.

16. 13th International Conference on Photoacoustic and Photothermal Phenomena, 5–8 Julio 2004, Rio de Janeiro, Brasil, “Study of The Polymerization Process of (Bis- Gma)-Si/Tegdma Copolymer Resin by Correlations Of Photoacoustic Signals”, F. Rivera, M. Navarrete, R. Vera-Graziano, H. Sobral.

15. 13th International Conference on Photoacoustic and Photothermal Phenomena, 5–8 Julio 2004, Rio de Janeiro, Brasil, “Absorption Spectroscopy of powders by laser pulsed photoacoustic”, M. Navarrete-Montesinos, R. Castañeda-Guzmán, H. Sobral, M. Villagrán-Muniz.

37 Nombre Completo (Apellidos y Nombres): Sobral, Hugo Martín Fecha de Actualización: marzo de 2014 14. 7th International Congress on Laser Ablation, 5-10 de octubre 2003, Creta, Grecia; “Study of Laser Ablation Plasmas Through Electric Field Perturbation and Photoacoustic Signal”; H. Sobral, M.Villagrán-Muniz, F. Bredice.

13. 7th International Congress on Laser Ablation, 5-10 de octubre 2003, Creta, Grecia; “Time Of Flight Analysis Of Dual-Laser Ablation On Graphite Targets”; M. Villagrán-Muniz, H. Sobral, C. Sánchez Aké, E. Sterling, E. Camps.

12. 44th Annual Meeting of the Division of Plasma Physics, 11-15 de noviembre, 2002; Orlando, Fl. USA, “Study of the validity of LTE condition in Laser Induced Plasma Experiments”, Hugo Sobral, Mayo Villagran-Muniz, Jazmín Ramírez- González, F. Bredice.

11. 11th International Congress on Plasma Physics, 15-19 de Julio, 2002, Sydney, Australia, “Experimental Simulation of Lightning, Interacting Explosions and Astrophysical Jets with Pulsed Lasers”, M. Villagrán-Muniz, H Sobral, R. Navarro- González and A. Raga.

10. 11th International Congress on Plasma Physics, 15-19 de Julio, 2002, Sydney, Australia, “Experimental Simulation of Jets Induced by Lasers”, H Sobral, M. Villagrán-Muniz, A. Raga, E. Camps.

9. 2002 Western Pacific Geophysics Meeting, 9-12 Julio 2002, Wellington, New Zealand, “Spectral Properties of Simulated Volcanic lightning”, H. Sobral, M. Villagran-Muniz, F. Bredice, and R. Navarro-González.

8. RIAO-OPTILAS 2001, Tandil, Argentina, septiembre de 2001, "Caracterización de plasmas de ablación láser mediante deflectometría", M. Villagrán Muniz, H. Sobral, C. Sánchez Aké, L. Escobar, E. Camps.

7. X Reunion Regional Latinoamericana de Astronomía, agosto de 2001, “Laser laboratory experiments, observations and numerical simulations of strong explosions and jets“, Velázquez P.F, Raga, A.C., Sobral H., Villagrán-Muniz M y Navarro- González R.

6. Geophysical European Societie, Niza, Francia, 23-27 marzo 2001 "The nitric oxide production rate by a simulated double return-stroke in lightning by lasers", Rafael Navarro-Gonzalez, Hugo Sobral, Mayo Villagran-Muniz, and Enrique Camps.

5. 2000 Fall Meeting de la American Geophysical Union, San Francisco, USA, 15-19 diciembre, 2000, “Time Resolved Evolution of a Simulated Double Return-Stroke in Lightning by Lasers”, H. Sobral, M. Villagran-Muniz, R. Navarro-Gozalez, E. Camps.

4. 2000 Fall Meeting de la American Geophysical Union, San Francisco, USA, 15-19 diciembre, 2000, “The Physical Mechanism of Nitric Oxide Formation in Simulated Lightning”, R. Navarro-González, M. Villagran-Muniz, H. Sobral, L. T. Molina and Mario Molina.

38 Nombre Completo (Apellidos y Nombres): Sobral, Hugo Martín Fecha de Actualización: marzo de 2014 3. Tenth International Congress on Plasma Physics (ICPP-2000), Quebec, Canada, 22-28 octubre, 2000. “Pulsed Plasma Diagnostics by a New CCD Technique”, M. Villagran-Muniz, H. Sobral, y E. Camps.

2. 29th EGAS (European Group for Atomic Spectroscopy) CONFERENCE, 15-18 julio, 1997, Berlin, Alemania. “Spectral Analysis of Intermediate and Highly Ionized Xenon “, J. Reyna Almandos, M. Raineri, F. Bredice, H. Sobral, R. Sarmiento, M.Gallardo, A. Trigueiros and A. Callegari.

1. IV Encuentro Latinoamericano sobre Óptica, Láser y sus aplicaciones, Oaxtepec, México, junio 21- julio 2, 1993: "Análisis de un láser de Xe. de pulso múltiple". D. Schinca, R Duchowicz, H. Sobral, M Gallardo y J. Reyna Almandos.

8.2 Nacionales

26 LV Congreso Nacional de Física, 8-12 de octubre de 2012, Morelia, Mich, “Detección de trazas presentes en agua por espectroscopía de rompimiento inducida por láser”, Abigail Trujillo Vázquez, Hugo Sobral y Roberto Sanginés.

25 LV Congreso Nacional de Física, 8-12 de octubre de 2012, Morelia, Mich, “Estudio resuelto en tiempo de la interacción de dos plasmas producidos por láser”, Roberto Sangines, Hugo Sobral.

24 LIV Congreso Nacional de Física, 10-14 de Octubre de 2011, Mérida, Yuc. México, “Caracterización óptica de plasmas de ablación producidos por dos pulsos láser”, R. Sanginés, H. Sobral, E. Álvarez-Zauco.

23 Segundo Encuentro Regional de Óptica, Morelia, Michoacán, 14 y 15 de noviembre de 2006, “Aplicaciones de Plasmas de Ablación Inducidos por Láser”; Martín Sobral, Plática invitada.

22. XI Simposio en Física de Materiales, 7-10 febrero de 2006, Ensenada, B.C. México, “Aplicaciones de Plasmas Inducidos por Láser”, M. Villagrán-Muniz, H Sobral, C. Sánchez Aké, R. Sanginés de Castro.

21. XX Congreso de Instrumentación SOMI, 24-28 octubre de 2005, León Gto. México, “Medición del Coeficiente de Absorción Óptica en Líquidos y Polvos con la Técnica Optoacústica Pulsada Resuelta en Tiempo”, M. Navarrete, H. Sobral, M. Villagrán-Muniz.

20. 18ava Reunión de Verano De Potencia y Aplicaciones Industriales y Exposición Industrial, IEEE RVP-AI 2005, del 10 al 16 de julio del 2005, Acapulco, Gro.,

39 Nombre Completo (Apellidos y Nombres): Sobral, Hugo Martín Fecha de Actualización: marzo de 2014 "Mediciones eléctricas y ópticas resueltas en el tiempo para impulsos de rayo", Arturo Robledo Martínez, M. Hugo Sobral, Mayo Villagrán, Alfredo Ruiz Meza y Guillermo Garduño, Acapulco, Mem. TPM 3-PON 282, CD-ROM (2005).

19. XLVII Congreso Nacional de Física del 25 al 29 de octubre, 2004, Hermosillo, Sonora, “Generación de tercer Armónico con Moléculas Orgánicas Octopolares”, G. Ramos Ortiz, J.L. Maldonado, O. Barbosa García, M.A. Meneses Nava, R. Castañeda Guzmán, H. Sobral, C. Sánchez Aké, M. Villagrán-Muniz.

18. IX Congreso de la División de Dinámica de Fluidos, Sociedad Mexicana de Física, 25 al 29 de octubre, 2004, Hermosillo, Sonora, “Estudio De La Expansión De Un Plasma Inducido Por Láser En Un Campo Eléctrico Externo”, A. Robledo Martínez, H. Sobral y M. Villagrán Muniz.

17. 89 Reunión Nacional de Física, Bahía Blanca, Argentina, 20-23 de sept de 2004, "Caracterización del Proceso de Ablación con Láser a Través de la Perturbación Producida por el Plasma sobre un Campo Eléctrico y la Señal Fotoacústica Generada”, H. Sobral, M., Villagrán Muniz, F. Bredice.

16. Galería de Fluidos del IX Congreso de la División de Dinámica de Fluidos, Sociedad Mexicana de Física, 17-19 de noviembre de 2003, Mayo Villagrán Muniz y Hugo Sobral, “Visualizacion de flujos mediante sombras”

15. IX Congreso de la División de Dinámica de Fluidos, Sociedad Mexicana de Física, 17-19 de noviembre de 2003, Espectroscopía Resuelta En Tiempo de Dos Plasmas Inducidos por Láseres Sincronizados, Hugo Sobral, Citlali Sánchez Aké, Mayo Villagrán Muniz.

14. XLVI Congreso Nacional de Física, 27-31 octubre 2003, Mérida, Yucatán, Espectroscopía Resuelta En Tiempo De Dos Plasmas Inducidos Por Láseres Sincronizados”, C. Sánchez Aké, H. Sobral y M. Villagrán Muniz.

13. XLV Congreso Nacional de Física, 28 octubre- 1 noviembre 2002, León Gto,“Espectroscopía de Plasmas Inducidos por Láser”, J. Ramírez-González, H. Sobral, M. Villagrán-Muniz.

12. XLV Congreso Nacional de Física, 28 octubre- 1 noviembre 2002, León Gto, “Simulación de un Relámpago Volcánico con Láser Pulsado”, R. Sanginés, H. Sobral y M. Villagrán-Muniz.

11. 87 Reunion Nacional de Fisica, 16 al 19 de septiembre de 2002, Cordoba, Argentina, "Caracterización del plasma generado por un pulso láser a través de la perturbación producida sobre un campo eléctrico", F. Bredice, D. Orzi, D. Schinca, H. Sobral, M, Villagran Muniz.

40 Nombre Completo (Apellidos y Nombres): Sobral, Hugo Martín Fecha de Actualización: marzo de 2014 10. XLIV Congreso de la Sociedad Mexicana de Física, 14-18 octubre 2001, Morelia, Michoacán, “Caracterización por deflectometría de la onda de choque en plasmas traseros de ablación”, Citlali Sánchez Aké, Hugo Sobral Mayo Villagrán Muniz.

9 IV Taller de Física de Plasmas, UNAM, México DF, México, 6-8 de septiembre de 2000.

8. 83° Reunión de la Asociación Física Argentina, setiembre 1998, La Plata, Bs. As. Argentina, “Modelo Resuelto en Tiempo de la Emision de un Plasma de Xenón Multi - Ionizado”, H. Sobral, D. Schinca, M. Gallardo, y R. Duchowicz.

7. 82° Reunión de la Asociación Física Argentina, setiembre 1997, San Luis, San Luis, Argentina, "Estudio Espectral del Xenón Mediana y Altamente Ionizado", J. Reyna Almandos, R. Sarmiento, M. Raineri, H. Sobral, F. Bredice y M. Gallardo.

6. VII Taller Nacional de Fotofísica; La Plata, Argentina, 22 y 23 de agosto de 1996.

5. 81° Reunión de la Asociación Física Argentina, setiembre 1996, Tandil, Bs. As. Argentina, "Caracterización de la emisión de un láser de xenon ionizado", H. Sobral, M Raineri, D Shinca, R Duchowicz, y M. Gallardo.

4. 81° Reunión de la Asociación Física Argentina, setiembre 1996, Tandil, Bs. As., Argentina, "Transiciones y niveles de energía del xenon seis veces ionizado (Xe VII)", F. Bredice, M. Raineri, H. Sobral, J. Gomide, A. Trigueiros

3. 80° Reunión de la Asociación Física Argentina, octubre 1995, San Carlos de Bariloche, Río Negro, Argentina, "Estudio de la emisión ultravioleta de un láser pulsado de xenon ionizado", H. Sobral, D Shinca, R Duchowicz, y M. Gallardo.

2. 79 Reunión de la Asociación Física Argentina, octubre 1994, Villa Giardino, Pcía de Cordoba, Argentina, "Estudio de la salida multipulso de un láser iónico de xenon", D. Schinca, R Duchowicz, H. Sobral, y M Gallardo.

1. 78 Reunión de la Asociación Física Argentina, octubre 1993, Rosario, Pcía de Sta Fe, Argentina, "Espectroscopía resuelta en tiempo de un láser iónico de Xe de pulso múltiple", D. Schinca, R Duchowicz, H Sobral, y M Gallardo.

9. TRABAJOS DE DIVULGACIÓN CIENTÍFICA Y EXTENSIÓN ACADÉMICA

9.2 Conferencias, ponencias y cursos breves

“Simulación de Relámpagos Volcánicos con Láser Pulsado”, Conferencia Plenaria invitada en la 3 Reunión de la Sociedad Mexicana de Astrobiología, Instituto de Ciencias Nucleares, UNAM, 24 junio, 2004.

41 Nombre Completo (Apellidos y Nombres): Sobral, Hugo Martín Fecha de Actualización: marzo de 2014 “Caracterización de Plasmas de Ablación Inducidos por Láser”, Conferencia invitada para el coloquio “Enzo Levi” dentro del programa académico del 50 aniversario del Instituto de Ingeniería, UNAM, 4 de mayo, 2006.

“Caracterización Óptica de Plasmas”, plática invitada para el evento: Tres días de Física, en Morelia, Michoacán, 12 de noviembre de 2007.

“Estudio de plasmas inducidos por láser para el análisis de materiales”, seminario de posgrado de Ingeniería Física, Universidad Michoacana de San Nicolás Hidalgo, 26 de agosto de 2013.

10. DISTINCIONES, PREMIOS y RECONOCIMIENTOS

10.1 Distinciones o premios recibidos

Segundo lugar en la Galería de Fluidos del IX Congreso de la División de Dinámica de Fluidos, Sociedad Mexicana de Física, 17-19 de noviembre de 2003, Mayo Villagrán Muniz y Hugo Sobral, “Visualización de flujos mediante sombras”

Technology Innovation Recognicement. Otorgante: COMITE ORGANIZADOR DEL XIV INTERNATIONAL MATERIALS RESEARCH CONGRESS, 08/05/2006.

Director de tesis de Roberto Sanginés: Medalla Alfonso Caso a la mejor tesis de maestría del posgrado en Ciencias Físicas, año 2006; fecha entrega 1 de abril de 2009.

10.2 Nivel en el PRIDE y el SNI

PRIDE: Nivel C desde julio de 2001; nivel D desde julio de 2004 hasta la fecha. SNI: Nivel 1 desde junio de 2001; nivel 2 desde enero de 2009 a la fecha.

10.3 Participación en actividades editoriales como miembro del comité editorial y/o árbitro

- Surface and Coatings Technology, árbitro de un artículo en diciembre de 2007, 1 trabajo en septembre de 2008. - IEEE Transactions on Plasma Science: árbitro de 1 trabajo, febrero de 2006. - Memoria en Extenso de la XVIII Reunión Anual de Óptica del XLVIII Congreso Nacional de Física, septiembre de 2005

42 Nombre Completo (Apellidos y Nombres): Sobral, Hugo Martín Fecha de Actualización: marzo de 2014 - Geophysical Research Letters: árbitro de 1 trabajo, diciembre de 2004. - Applied Surface Science, árbitro de 3 trabajos, octubre 2004. - Applied Physics A; Material: Science and Processing, árbitro de 2 trabajos, febrero 2004. - CONACyT: Arbitro de 1 proyecto de Investigación Básica, convocatoria 2003 (abril 2004), arbitro de 1 proyecto de Investigación Básica, convocatoria 2004 (febrero 2005), -Árbitro de 1 proyecto de Investigación Básica, convocatoria 2005 (enero 2006). -1 proyecto Investigación básica en (convocatoria 2007), junio de 2008 y 1 de jóvenes investigadores, junio 2008 -Arbitro 3 proyectos de Investigación básica, convocatoria 2008 (abril de 2009). -Arbitro 3 proyectos de Investigación básica, convocatoria 2009 (abril y mayo de 2010). -Árbitro 1 proyecto de Investigación Científica y Tecnológica FONCyT, Argentina, enero de 2011. -Árbitro de 1 proyecto CONACyT de grupos, 1 de Ciencia Básica y 1 de colaboración internacional: convocatoria 2011. -Árbitro 1 trabajo de las memorias SPIE, ICO 2011. -Árbitro 1 trabajo del 2do International congress on instrumentation and applied sciences, 2011. - Árbitro 3 proyectos CONACyT Ciencia Básica, convocatoria 2011 (octubre 2011). - Spectrochimica Acta B, arbitro de 1 artículo de investigación; noviembre de 2011. - Optics Communications: árbitro de 1 trabajo en diciembre de 2011 y 1 en marzo de 2012. -Árbitro de 2 trabajos presentados al congreso del SOMI de 2013 (julio de 2013).

12. OTROS Organización de Congresos

Participación en el comité local organizador de: - 16 th IAEA Technical Meeting on Research Using Small Fusion Devices, Instituto de Ciencias Nucleares, Universidad Nacional Autónoma de México, Ciudad Universitaria, MEXICO, 30 de noviembre al 2 de diciembre de 2005. Participación en el comité local: - XI Latin American Workshop on Plasma Physics, Universidad Nacional Autónoma de México, Ciudad Universitaria, 5-9 Diciembre de 2005.

Firma: ______

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