DOCSLIB.ORG

ELIA STEFANO BATTISTELLI Curriculum Vitae

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text

Load more

ELIA STEFANO BATTISTELLI Curriculum Vitae Place: Rome, Italy Date: 03/09/2019 Part I – General Information Full Name ELIA STEFANO BATTISTELLI Date of Birth 29/03/1973 Place of Birth Milan, Italy Citizenship Italian Work Address Physics Dep., Sapienza University of Rome, P.le Aldo Moro 5, 00185, Rome, Italy Work Phone Number +39 06 49914462 Home Address Via Romolo Gigliozzi, 173, scala B, 00128, Rome, Italy Mobile Phone Number +39 349 6592825 E-mail [email protected] Spoken Languages Italian (native), English (fluent), Spanish (fluent), French (basic) Part II – Education Type Year Institution Notes (Degree, Experience,..) University graduation 1999 Sapienza University (RM, IT) Physics 1996 University of Leeds, UK Erasmus project Post-graduate studies 2000 SIGRAV (CO, IT) Graduate School in Relativity 2000 INAF (Asiago, VI, IT) Scuola Nazionale Astrofisica 2001 INAF/INFN (FC, IT) Scuola Nazionale Astroparticelle 2004 Società Italiana Fisica (CO, IT) International Fermi School 2006 Princeton University (NJ,USA) Summer School on Gal. Cluster PhD 2004 Sapienza University (RM, IT) PhD in Astronomy (XV cycle) Training Courses 2007 University of British Columbia 40-hours course in precision (BC, CA) machining 2009 Programma Nazionale Ricerche 2 weeks training course for the in Antartide (PNRA) Antarctic activity in remote camps Qualification 2013 Ministero della Pubblica National scientific qualification for Istruzione Associate Professor 2012, SSD 02/C1 (ASN-2012) Part III – Appointments IIIA – Academic Appointments Start End Institution Position 11/2018 present Sapienza University of Rome, Physics Associate Professor;Physics Department Department (Rome, Italy) SSD 02/C1-FIS/05 (Astrophysics) 11/2015 11/2018 Sapienza University of Rome, Physics Tenure track assistant professor Department (Rome, Italy) (Ricercatore a Tempo Determinato RTD- B-type). 03/2012 02/2015 Sapienza University of Rome, Physics Non-tenure assistant professor Department (Rome, Italy) (Ricercatore a Tempo Determinato RTD- A-type). 03/2010 02/2012 Sapienza University of Rome, Physics Non-tenure assistant professor Department (Rome, Italy) (Ricercatore a Tempo Determinato RTD). 01/2008 12/2009 Sapienza University of Rome, Physics Post-doc (Assegno di Ricerca) on “Read- Department (Rome, Italy) Out electronics for the OLIMPO detectors”. Supervisor Dr. S. Masi 11/2005 12/2007 University of British Columbia, Post-doctoral fellowship on Experimental Department of Physics and Astronomy Cosmology. Supervisor Prof. M. Halpern (Vancouver, BC, Canada) . 01/2004 10/2005 Instituto de Astrofisica de Canarias CMBNET Post-doc on “Methods for (Tenerife, Spain) analysis of large CMB data set”. Supervisor Dr. R. Rebolo 09/2001 08/2003 Sapienza University of Rome, Physics Research grant (Assegno di Ricerca) on Department (Rome, Italy) “Photometric and polarization measurements at MITO”. Supervisor Prof. F. Melchiorri 02/2000 08/2001 Bicocca University of Milan, Physics Research grant (Assegno di Ricerca) on Department (Milan, Italy) “Cryogenic coherent device for mm and sub-mm astrophysics”. Supervisor Prof. G. Sironi IIIB – Other Appointments Start End Institution Position 11/2015 12/2015 Programma Nazionale Ricerche in XXXI Italian Antarctic Campaign at Antartide (PNRA) Concordia Station, Antarctica 05/2015 06/2015 University of British Columbia, Guest visiting Faculty Vancouver, Canada 03/2015 04/2015 Université Paris Diderot – Paris 7, Paris, Guest visiting Faculty France 12/2009 02/2010 Programma Nazionale Ricerche in XXV Italian Antarctic Campaign at Antartide (PNRA) Concordia Station, Antarctica 2005 declined Univ. of Cambridge, Cavendish Lab., UK Research Associate position, (declined) 01/1999 09/1999 Presidenza del Consiglio dei Ministri, Italian Civil Service Servizi Tecnici IIIC – Other Working-related Activities Year/Since Activity CONFERENCES ORGANIZATION: 2019 Co-chair parallel session SS30a, EWASS 2019, Lyon, France, 24-28 June, 2019 2019 SOC of the 5th SCAR AAA workshop, Skyway Mont Blanc, 17-19 June, 2019 2018 LOC chair XV Marcell Grossman conference, Rome, Italy, 1-7 July, 2018 (~1000 part.) 2018 Convener of the POLAR 2018 AA conference, Davos-Switzerland, 15-26 June 2018 2017 Organizer/SOC of the 4th SCAR AAA workshop, Chang Mai Thailand, 31/7/17-4/8/17 2015 LOC of the XIV Marcell Grossman conference, Rome, Italy, 12-18 July, 2015 RESPONSABILITIES IN INTERNATIONAL COLLABORATIONS: 2018 PI of the proposal “M2 SZ study of the filamentary structure between A401-A399” for GBT 2018 PI of the proposal “Study of the Microwave emission of M31 in the K-band” for the SRT 2016- PI of the PNRA proposal for Detectors development for Observations in Antarctica 2016- PI Ateneo Progetti di Ricerca on Anomalous Microwave Emission study 2016 PI of the proposal “Mapping the microwave emission of Andromeda” for the SRT telescope 2016- Member of the Scientific Committee for Antarctic Research, SCAR 2016- Chair of the Editorial Board of the LSPE experiment 2015- Chair of the Editorial Board of the QUBIC experiment 2014- Member of the steering committee of the QUBIC experiment 2014- Responsible for the front-end working group of LSPE INFN activity 2011 PI of the proposal “Unveiling the AME in 3C396 and RCW175” for the Parkes telescope 2011 PI of the Grandi Attrezzature (lab facilities) Sapienza Ateneo 2010 proposal 2010- Responsible for 3 working packages of the LSPE ASI proposal ASTRONOMICAL OBSERVATIONAL CAMPAIGNS: 2019 Balloon flight campaign at Svalbard Island (NW) for the OLIMPO experiment 2018 Observational campaign at Sardinia Radio Telescope: 200h (out of 300h) (proposal PI) 2016 Observational campaign at Sardinia Radio Telescope: 64h (proposal PI) 2015 Site testing campaign for the QUBIC experiment, Dome C, Antarctica (campaign leader) 2014 Observational/calibration campaign at Svalbard Island (NW) for the OLIMPO experiment 2011 Observational campaign at Parkes Telescope NSW, Australia (proposal PI) 2009 Observational campaign with BRAIN-pathfinder, Dome C, Antarctica (campaign leader) 2007 Observational campaign with Atacama Cosmology Telescope (ACT), Atacama, Chile 2006 Observational campaign at Caltech Submillimeter Observatory, Hawaii, USA 2004 Observational campaign with MITO telescope, Cervinia, Italy 2003 Observational/calibration campaign with MITO telescope, Cervinia, Italy 2002 Observational/calibration campaign with MITO telescope, Cervinia, Italy TALKS AND POSTERS AT CONFERENCES: 2000- 27 oral presentations in international conference and workshops (9 invited talks) 2000- 8 posters presented in international conference and workshop REFEREE AND EDITORIAL BOARDS: 2019- Referee for the European Physical Letter Journal 2019- Referee for the Institute of Physics (IOP) 2017- Referee for the Multidiscipinary Digital Publishing Institute 2016- Chair of the Editorial Board of the LSPE experiment 2016 Co-Editor of the Scientific Report of the Sapienza Physics department 2015- Referee for the international scientific journal: Astronomical Journal 2015- Chair of the Editorial Board of the QUBIC experiment 2009- Referee for the international scientific journal: Astrophysical Journal 2009- Referee for the international scientific journal: Journal of Instrumentation 2008- Referee for the international scientific journal: Astrophysical Journal Supplement 2008- Referee for the international scientific journal: Journal of Low Temperature Physics 2006- Referee for the international scientific journal: Astrophysical Journal Letters OUTREACH ACTIVITY: 2017 Coordinator of the activities of the Lab2go program at Liceo Meucci (high school) 2013 Outreach activity: Article in "Le Scienze" February 2013 ("Piccoli effetti nei moti celesti") 2013 Outreach activity: Participation to the TV program "Polifemo" in MTV 2010 Outreach activity: Participation to the Radio program "Caccia al Fotone" in RadioCittàFujiko Part IV – Teaching experience IVA – lecture activity Year Institution Lecture/Course 2019-2020 Sapienza University of Rome, Physics Professor for the physics course at the Biotechnology Department, (Rome, IT) degree (6 CFU) 2019-2020 Sapienza University of Rome, Physics Professor for the Astrophysics Laboratory course at the Department, (Rome, IT) Physics Department (9 CFU) 2018-2019 Sapienza University of Rome, Physics Professor for the physics course at the Biotechnology Department, (Rome, IT) degree (6 CFU) 2018-2019 Sapienza University of Rome, Physics Professor for the Astrophysics Laboratory course at the Department, (Rome, IT) Physics Department (9 CFU) 2017-2018 Sapienza University of Rome, Physics Professor for the physics course at the Biotechnology Department, (Rome, IT) degree (6 CFU) 2017-2018 Sapienza University of Rome, Physics Professor for the Astrophysics Laboratory course at the Department, (Rome, IT) Physics Department (9 CFU) 2016-2017 Sapienza University of Rome, Physics Professor for the physics course at the Biotechnology Department, (Rome, IT) degree (6 CFU) 2016-2017 Sapienza University of Rome, Physics Professor for the Astrophysics Laboratory course at the Department, (Rome, IT) Physics Department (9 CFU) 2015-2016 Sapienza University of Rome, Physics Professor for the physics course at the Biotechnology Department, (Rome, IT) degree (6 CFU) 2013-2014 Sapienza University of Rome, Physics Professor for the laboratory of physics course at the Department, (Rome, IT) Chemistry department (2 CFU) 2013-2014 Sapienza University of Rome, Physics Assistant Professor for the laboratory of mechanics Department, (Rome, IT) course at the Physics department
Recommended publications
  • Analysis and Measurement of Horn Antennas for CMB Experiments

    Analysis and Measurement of Horn Antennas for CMB Experiments

    Analysis and Measurement of Horn Antennas for CMB Experiments Ian Mc Auley (M.Sc. B.Sc.) A thesis submitted for the Degree of Doctor of Philosophy Maynooth University Department of Experimental Physics, Maynooth University, National University of Ireland Maynooth, Maynooth, Co. Kildare, Ireland. October 2015 Head of Department Professor J.A. Murphy Research Supervisor Professor J.A. Murphy Abstract In this thesis the author's work on the computational modelling and the experimental measurement of millimetre and sub-millimetre wave horn antennas for Cosmic Microwave Background (CMB) experiments is presented. This computational work particularly concerns the analysis of the multimode channels of the High Frequency Instrument (HFI) of the European Space Agency (ESA) Planck satellite using mode matching techniques to model their farfield beam patterns. To undertake this analysis the existing in-house software was upgraded to address issues associated with the stability of the simulations and to introduce additional functionality through the application of Single Value Decomposition in order to recover the true hybrid eigenfields for complex corrugated waveguide and horn structures. The farfield beam patterns of the two highest frequency channels of HFI (857 GHz and 545 GHz) were computed at a large number of spot frequencies across their operational bands in order to extract the broadband beams. The attributes of the multimode nature of these channels are discussed including the number of propagating modes as a function of frequency. A detailed analysis of the possible effects of manufacturing tolerances of the long corrugated triple horn structures on the farfield beam patterns of the 857 GHz horn antennas is described in the context of the higher than expected sidelobe levels detected in some of the 857 GHz channels during flight.
  • La Radiación Del Fondo Cósmico De Microondas Abstracts

    La Radiación Del Fondo Cósmico De Microondas Abstracts

    Simposio Internacional: La radiación del Fondo Cósmico de Microondas: mensajera de los orígenes del universo International Symposium: CMB Radiation: Messenger of the Origins of Our Universe Madrid, 6 de noviembre de 2014 Madrid, November 6, 2014 I The seeds of structure: A view of the Cosmic Microwave Background, Joseph Silk The shape of the universe as seen by Planck, Enrique Martínez-González Deciphering the beginnings of the universe with CMB polarization, Matías Zaldarriaga 30 years of Cosmic Microwave Background experiments in Tenerife: From temperature to polarization maps, Rafael Rebolo Cosmology from Planck: Do we need a new Physics?, Nazzareno Mandolesi FUNDACIÓN RAMÓN ARECES Simposio Internacional: La radiación del Fondo Cósmico de Microondas: mensajera de los orígenes del universo International Symposium: CMB Radiation: Messenger of the Origins of Our Universe Madrid, 6 de noviembre de 2014 Madrid, November 6, 2014 The seeds of structure: A view of the Cosmic Microwave Background, Joseph Silk One of our greatest challenges is understanding the origin of the structure of the universe.I will describe how the fossil radiation from the beginning of the universe, the cosmic microwave background, has provided a window for probing the initial conditions from which structure evolved. Infinitesimal variations in temperature on the sky, first discovered in 1992, provide the fossil fluctuations that seeded the formation of the galaxies. The cosmic microwave background radiation has now been mapped with ground-based, balloon-borne and satellite telescopes. These provide the basis for our current ``precision cosmology'' in which the universe not only contains Dark Matter but also ``DarkEnergy'', which has accelerated its expansion exponentially in the last 4 billion years.
  • Code De Conduite Pour Le Water Polo

    Code De Conduite Pour Le Water Polo

    HistoFINA SWIMMING MEDALLISTS AND STATISTICS AT OLYMPIC GAMES Last updated in November, 2016 (After the Rio 2016 Olympic Games) Fédération Internationale de Natation Ch. De Bellevue 24a/24b – 1005 Lausanne – Switzerland TEL: (41-21) 310 47 10 – FAX: (41-21) 312 66 10 – E-mail: [email protected] Website: www.fina.org Copyright FINA, Lausanne 2013 In memory of Jean-Louis Meuret CONTENTS OLYMPIC GAMES Swimming – 1896-2012 Introduction 3 Olympic Games dates, sites, number of victories by National Federations (NF) and on the podiums 4 1896 – 2016 – From Athens to Rio 6 Olympic Gold Medals & Olympic Champions by Country 21 MEN’S EVENTS – Podiums and statistics 22 WOMEN’S EVENTS – Podiums and statistics 82 FINA Members and Country Codes 136 2 Introduction In the following study you will find the statistics of the swimming events at the Olympic Games held since 1896 (under the umbrella of FINA since 1912) as well as the podiums and number of medals obtained by National Federation. You will also find the standings of the first three places in all events for men and women at the Olympic Games followed by several classifications which are listed either by the number of titles or medals by swimmer or National Federation. It should be noted that these standings only have an historical aim but no sport signification because the comparison between the achievements of swimmers of different generations is always unfair for several reasons: 1. The period of time. The Olympic Games were not organised in 1916, 1940 and 1944 2. The evolution of the programme.
  • Planck 2015 Results. XII. Full Focal Plane Simulations Planck Collaboration: P

    Planck 2015 Results. XII. Full Focal Plane Simulations Planck Collaboration: P

    Astronomy & Astrophysics manuscript no. A14˙Simulations c ESO 2016 August 13, 2016 Planck 2015 results. XII. Full Focal Plane simulations Planck Collaboration: P. A. R. Ade87, N. Aghanim60, M. Arnaud75, M. Ashdown71;5, J. Aumont60, C. Baccigalupi86, A. J. Banday95;9, R. B. Barreiro66, J. G. Bartlett1;68, N. Bartolo31;67, E. Battaner97;98, K. Benabed61;94, A. Benoˆıt58, A. Benoit-Levy´ 25;61;94, J.-P. Bernard95;9, M. Bersanelli34;49, P. Bielewicz84;9;86, J. J. Bock68;11, A. Bonaldi69, L. Bonavera66, J. R. Bond8, J. Borrilly14;90, F. R. Bouchet61;89, F. Boulanger60, M. Bucher1, C. Burigana48;32;50, R. C. Butler48, E. Calabrese92, J.-F. Cardoso76;1;61, G. Castex1, A. Catalano77;74, A. Challinor63;71;12, A. Chamballu75;16;60, H. C. Chiang28;6, P. R. Christensen85;37, D. L. Clements56, S. Colombi61;94, L. P. L. Colombo24;68, C. Combet77, F. Couchot73, A. Coulais74, B. P. Crill68;11, A. Curto66;5;71, F. Cuttaia48, L. Danese86, R. D. Davies69, R. J. Davis69, P. de Bernardis33, A. de Rosa48, G. de Zotti45;86, J. Delabrouille1, J.-M. Delouis61;94, F.-X. Desert´ 54, C. Dickinson69, J. M. Diego66, K. Dolag96;81, H. Dole60;59, S. Donzelli49, O. Dore´68;11, M. Douspis60, A. Ducout61;56, X. Dupac39, G. Efstathiou63, F. Elsner25;61;94, T. A. Enßlin81, H. K. Eriksen64, J. Fergusson12, F. Finelli48;50, O. Forni95;9, M. Frailis47, A. A. Fraisse28, E. Franceschi48, A. Frejsel85, S. Galeotta47, S. Galli70, K. Ganga1, T. Ghosh60, M. Giard95;9, Y. Giraud-Heraud´ 1, E. Gjerløw64, J. Gonzalez-Nuevo´ 20;66, K.
  • Physics of the Cosmic Microwave Background Anisotropy∗

    Physics of the Cosmic Microwave Background Anisotropy∗

    Physics of the cosmic microwave background anisotropy∗ Martin Bucher Laboratoire APC, Universit´eParis 7/CNRS B^atiment Condorcet, Case 7020 75205 Paris Cedex 13, France [email protected] and Astrophysics and Cosmology Research Unit School of Mathematics, Statistics and Computer Science University of KwaZulu-Natal Durban 4041, South Africa January 20, 2015 Abstract Observations of the cosmic microwave background (CMB), especially of its frequency spectrum and its anisotropies, both in temperature and in polarization, have played a key role in the development of modern cosmology and our understanding of the very early universe. We review the underlying physics of the CMB and how the primordial temperature and polarization anisotropies were imprinted. Possibilities for distinguish- ing competing cosmological models are emphasized. The current status of CMB ex- periments and experimental techniques with an emphasis toward future observations, particularly in polarization, is reviewed. The physics of foreground emissions, especially of polarized dust, is discussed in detail, since this area is likely to become crucial for measurements of the B modes of the CMB polarization at ever greater sensitivity. arXiv:1501.04288v1 [astro-ph.CO] 18 Jan 2015 1This article is to be published also in the book \One Hundred Years of General Relativity: From Genesis and Empirical Foundations to Gravitational Waves, Cosmology and Quantum Gravity," edited by Wei-Tou Ni (World Scientific, Singapore, 2015) as well as in Int. J. Mod. Phys. D (in press).
  • Cosmic Microwave Background Activities at IN2P3

    Cosmic Microwave Background Activities at IN2P3

    Cosmic Microwave Background activities at IN2P3 IN2P3 permanent researchers and research engineers APC: James G. Bartlett (Pr.-UPD – Planck), Pierre Binétruy (Pr.-UPD), Martin Bucher (DR2-CNRS – Planck), Jacques Delabrouille (DR2-CNRS – Planck), Ken Ganga (DR1-CNRS – Planck), Yannick Giraud- Héraud (DR1-CNRS - Planck/QUBIC), Laurent Grandsire (IR-CNRS – QUBIC), Jean-Christophe Hamilton (DR2-CNRS – QUBIC), Jean Kaplan (DR émérite-CNRS – Planck/QUBIC), Maude Le Jeune (IR-CNRS – Planck/POLARBEAR), Guillaume Patanchon (MCF-UPD – Planck), Michel Piat (Pr-UPD - Planck/QUBIC), Damien Prêle (IR-CNRS - QUBIC), Cayetano Santos (IR-CNRS, R&D mm), Radek Stompor (DR1-CNRS – Planck/POLARBEAR), Bartjan van Tent (MCF-UPS – Planck), Fabrice Voisin (IR-CNRS – QUBIC/R&D mm); CSNSM: Laurent Bergé (IR-CNRS – QUBIC/R&D mm), Louis Dumoulin (DR émérite-CNRS – QUBIC/R&D mm), Stefanos Marnieros (CR-CNRS – QUBIC/R&D mm); LAL: François Couchot (DR1- CNRS – Planck/QUBIC), Sophie Henrot-Versillé (CR1-CNRS – Planck/QUBIC), Olivier Perdereau (DR2- CNRS – Planck/QUBIC), Stéphane Plaszczynski (DR2-CNRS – Planck/QUBIC), Matthieu Tristram (CR1- CNRS – Planck/QUBIC); LPSC: Olivier Bourrion (IR1-CNRS – NIKA/NIKA2), Andrea Catalano (CR2-CNRS – Planck/NIKA/NIKA2), Céline Combet (CR2-CNRS – Planck), Juan Francisco Macías-Perez (DR2-CNRS – Planck/NIKA/NIKA2), Frédéric Mayet (MCF-UJF – NIKA/NIKA2), Laurence Perotto (CR1-CNRS – Planck/NIKA/NIKA2), Cécile Renault (CR1-CNRS – Planck), Daniel Santos (DR1-CNRS – Planck) IN2P3 Postdoctoral fellows and PhD students APC: Ranajoy Banerji
  • FOR the QUBIC CMB David G. Bennett B.Sc

    FOR the QUBIC CMB David G. Bennett B.Sc

    ___________________________________________________ DESIGN AND ANALYSIS OF A QUASI-OPTICAL BEAM COMBINER FOR THE QUBIC CMB INTERFEROMETER ___________________________________________________ David G. Bennett B.Sc. Research Supervisor: Dr. Créidhe O'Sullivan Head of Department: Prof. J.A. Murphy A thesis submitted for the degree of Doctor of Philosophy Sub-mm Optics Research Group Department of Experimental Physics National University of Ireland, Maynooth Co. Kildare Ireland 9th July 2014 Contents 1 The Cosmic Microwave Background 8 1.1 A signal from the early Universe . 8 1.2 A brief history of CMB observations . 9 1.3 Modern Cosmology and the CMB . 12 1.3.1 The Big Bang and the expanding Universe . 12 1.3.2 CMB temperature power spectra . 14 1.3.3 Primary temperature anisotropies . 18 1.3.4 Secondary anisotropies . 19 1.3.5 CMB Polarization . 21 1.3.6 The CMB and Inflation . 27 1.4 Recent CMB experiments . 28 1.5 The CMB and the cosmological parameters . 29 1.6 Conclusions . 33 2 QUBIC: An Experiment designed to measure CMB B-mode polarization 35 2.1 Introducing QUBIC . 35 2.2 Interferometry . 35 2.2.1 Interferometers in astronomy . 35 2.2.2 Radio receivers . 37 2.2.3 Additive Bolometric Interferometry . 39 2.3 The QUBIC experiment . 41 2.3.1 QUBIC specifications . 42 2.4 Phase Shifting and equivalent baselines . 49 2.5 Quasi optical analysis techniques . 55 2.5.1 Methods for the optical modeling of CMB experiments . 55 2.5.2 Geometrical optics . 58 2 2.5.3 Physical optics (PO) . 59 2.5.4 Quasi optics .
  • Redalyc.Support to Military Or Humanitarian Counterterrorism

    Redalyc.Support to Military Or Humanitarian Counterterrorism

    International Journal of Psychological Research ISSN: 2011-2084 [email protected] Universidad de San Buenaventura Colombia Passini, Stefano; Battistelli, Piergiorgio Support to Military or Humanitarian Counterterrorism Interventions: The Effect of Interpersonal and Intergroup Attitudes International Journal of Psychological Research, vol. 7, núm. 1, 2014, pp. 19-29 Universidad de San Buenaventura Medellín, Colombia Available in: http://www.redalyc.org/articulo.oa?id=299031196003 How to cite Complete issue Scientific Information System More information about this article Network of Scientific Journals from Latin America, the Caribbean, Spain and Portugal Journal's homepage in redalyc.org Non-profit academic project, developed under the open access initiative INT.J.PSYCHOL.RES. 2014; 7 (1): 19-29 Support to Military or Humanitarian Counterterrorism Interventions: The Effect of Interpersonal and Intergroup Attitudes Apoyo a Intervenciones Contraterroristas Humanitarias o Militares: El efecto de las Actitudes Interpersonales e Intergrupales R e s e a r c h Stefano Passini a, *, , and Piergiorgio Battistelli b, a Dipartimento di Scienze dell’Educazione, University of Bologna, Bologna, Italy. b Dipartimento di Psicologia, University of Bologna, Bologna, Italy. ARTICLE INFO Article history: ABSTRACT Received: 21-12-2013 Revised: 01-03-2014 Recently, new interest in terrorism and psychological factors related to Accepted: 15-03-2014 supporting the war on terrorism has been growing in the field of psychology. The aim of this study was to examine the effect of various socio-political attitudes on the level of agreement with military and humanitarian counterterrorism interventions. 270 Italian participants responded to a news article concerning measures against terrorism. Half of the participants read an article regarding a military intervention while the other half read about a humanitarian intervention.
  • Implicaciones Cosmológicas De Las

    Implicaciones Cosmológicas De Las

    DEPARTAMENTO DE F´ISICAMODERNA INSTITUTODEF´ISICA DE CANTABRIA UNIVERSIDAD DE CANTABRIA IFCA (UC-CSIC) IMPLICACIONES COSMOLOGICAS´ DE LAS ANISOTROP´IAS DE TEMPERATURA Y POLARIZACION´ DE LA RFCM Y LA ESTRUCTURA A GRAN ESCALA DEL UNIVERSO Memoria presentada para optar al t´ıtulo de Doctor otorgado por la Universidad de Cantabria por Ra´ul Fern´andez Cobos Declaraci´on de Autor´ıa Patricio Vielva Mart´ınez, Doctor en Ciencias F´ısicas y Profesor Contratado Doctor de la Universidad de Cantabria y Enrique Mart´ınez Gonz´alez, Doctor en Ciencias F´ısicas y Profesor de Investigaci´on del Consejo Superior de Investigaciones Cient´ıficas, CERTIFICAN que la presente memoria Implicaciones cosmol´ogicas de las anisotrop´ıas de temperatura y polarizaci´on de la RFCM y la estructura a gran escala del universo ha sido realizada por Ra´ul Fern´andez Cobos bajo nuestra direcci´on en el Instituto de F´ısica de Cantabria, para optar al t´ıtulo de Doctor por la Universidad de Cantabria. Consideramos que esta memoria contiene aportaciones cient´ıficas suficientemente rele- vantes como para constituir la Tesis Doctoral del interesado. En Santander, a 19 de septiembre de 2014, Patricio Vielva Mart´ınez Enrique Mart´ınez Gonz´alez A mis padres. Creo que seremos inmortales, que sembraremos las estrellas y viviremos eternamente en la carne de nuestros hijos. Ray Bradbury. Agradecimientos La realizaci´on de esta tesis doctoral ha servido de excusa para llevar a cabo un proyecto mucho m´as amplio, que se ha saldado con unos a˜nos de impagable crecimiento personal y del que estas p´aginas constituyen solo la peque˜na parte tangible.
  • China's Swimming Icon?

    China's Swimming Icon?

    SOLVE THE PERFORMANCE PUZZLE N TIPS ON TECHNIQUE N GO HARD CORE! APRIL 2012 —VOLUME 53 NO. 4 CHINA’S SWIMMING ICON? pagepage 1616 A MASTERS’ TOUCH — page 18 — “The daily news of swimming” Check us out online at: www.SwimmingWorldMagazine.com $3.95 USA • $4.50 CAN How They Train Wyatt Ubellacker Lane 9/Gutter Talk JANET EVANS MAKES 2012 U.S. OLYMPIC TRIALS LANCE ARMSTRONG COMPETES IN MASTERS MEET JAPAN’S RYOSUKE IRIE IMPRESSIVE IN AUSTRALIA KARLYN PIPES-NEILSEN RETURNS TO MASTERS SWIMMING PASSAGES: ARTHUR FRANCIS “REDS” HUCHT PASSAGES: JESSICA JOY REES PASSAGES: KELLEY LEMON PASSAGES: JOHN MACIONIS For the Record USA SWIMMING GRAND PRIX Columbia, Missouri ALABAMA HIGH SCHOOL CHAMPIONSHIPS Auburn, Alabama COLORADO 4A HIGH SCHOOL GIRLS CHAMPIONSHIPS Thornton, Colorado COLORADO 5A HIGH SCHOOL GIRLS CHAMPIONSHIPS Fort Collins, Colorado CONNECTICUT HIGH SCHOOL GIRLS CHAMPIONSHIPS New Haven, Conn. EASTERN INTERSCHOLASTIC HIGH SCHOOL CHAMPIONSHIPS Philadelphia, Pennsylvania GEORGIA 1A-4A HIGH SCHOOL CHAMPIONSHIPS Atlanta, Georgia GEORGIA 5A HIGH SCHOOL CHAMPIONSHIPS Atlanta, Georgia ILLINOIS HIGH SCHOOL BOYS CHAMPIONSHIPS Evanston, Illinois IOWA HIGH SCHOOL BOYS CHAMPIONSHIPS Marshalltown, Iowa LOUISIANA DIVISION I HIGH SCHOOL CHAMPIONSHIPS Sulphur, Louisiana LOUISIANA DIVISION II HIGH SCHOOL CHAMPIONSHIPS Sulphur, Louisiana LOUISIANA DIVISION III HIGH SCHOOL CHAMPIONSHIPS Sulphur, Louisiana LOUISIANA DIVISION IV HIGH SCHOOL CHAMPIONSHIPS Sulphur, Louisiana MASSACHUSETTS DIVISION I HIGH SCHOOL GIRLS CHAMPIONSHIPS Cambridge, Massachusetts MASSACHUSETTS DIVISION II HIGH SCHOOL GIRLS CHAMPIONSHIPS Cambridge, Massachusetts MICHIGAN DIVISION I HIGH SCHOOL GIRLS CHAMPIONSHIPS Ypsilanti, Michigan MICHIGAN DIVISION II HIGH SCHOOL GIRLS CHAMPIONSHIPS Holland, Michigan MICHIGAN DIVISION III HIGH SCHOOL GIRLS CHAMPIONSHIPS Rochester, Michigan NEW YORK HIGH SCHOOL GIRLS CHAMPIONSHIPS Buffalo, New York WASHINGTON, D.C.
  • Kinetic Inductance Detectors for the OLIMPO Experiment: In–Flight Operation and Performance

    Kinetic Inductance Detectors for the OLIMPO Experiment: In–Flight Operation and Performance

    Prepared for submission to JCAP Kinetic Inductance Detectors for the OLIMPO experiment: in–flight operation and performance S. Masi,a;b;1 P. de Bernardis,a;b A. Paiella,a;b F. Piacentini,a;b L. Lamagna,a;b A. Coppolecchia,a;b P. A. R. Ade,c E. S. Battistelli,a;b M. G. Castellano,d I. Colantoni,d;e F. Columbro,a;b G. D’Alessandro,a;b M. De Petris,a;b S. Gordon, f C. Magneville,g P. Mauskopf, f;h G. Pettinari,d G. Pisano,c G. Polenta,i G. Presta,a;b E. Tommasi,i C. Tucker,c V. Vdovin,l;m A. Volpei and D. Yvong aDipartimento di Fisica, Sapienza Università di Roma, P.le A. Moro 2, 00185 Roma, Italy bIstituto Nazionale di Fisica Nucleare, Sezione di Roma, P.le A. Moro 2, 00185 Roma, Italy cSchool of Physics and Astronomy, Cardiff University, Cardiff CF24 3YB, UK dIstituto di Fotonica e Nanotecnologie - CNR, Via Cineto Romano 42, 00156 Roma, Italy ecurrent address: CNR-Nanotech, Institute of Nanotechnology c/o Dipartimento di Fisica, Sapienza Università di Roma, P.le A. Moro 2, 00185, Roma, Italy f School of Earth and Space Exploration, Arizona State University, Tempe, AZ 85287, USA gIRFU, CEA, Université Paris-Saclay, F-91191 Gif sur Yvette, France hDepartment of Physics, Arizona State University, Tempe, AZ 85257, USA iItalian Space Agency, Roma, Italy lInstitute of Applied Physics RAS, State Technical University, Nizhnij Novgorov, Russia mASC Lebedev PI RAS, Moscow, Russia E-mail: [email protected] Abstract. We report on the performance of lumped–elements Kinetic Inductance Detector (KID) arrays for mm and sub–mm wavelengths, operated at 0:3 K during the stratospheric flight of the OLIMPO payload, at an altitude of 37:8 km.
  • DE LA Xxrv' Olymptade À Séoul

    DE LA Xxrv' Olymptade À Séoul

    LES RESULTATS DES f EUX DE LA xxrv' oLYMPTADE À sÉoul DU 17 SEPTEMBRE AU 2 OCTOBRE 19BB fl eux cent trente-sept épreuves étaient proposées aux athlètes dans vingt-sept disciplines des l-l vi¡'¡9¡-¡¡6is sports inscrits au programme olympique, auxquelles s'ajoutaient deux sports et une épreuve de démonstration ainsi que deux épreuves à l'intention des handicapés. Abréviations utilisées : NRM, nouveau record mondial ; NRMF, nouveau record mondial (finale) ; ERM, égalise le record mondial ; NRO, nouveau record olympique ; NMPO, nouvelle meilleure perfor- mance olympique ; DQ, disqualifié. 493 Les feux de la XXIV" Olympiade Athlétisme Mexico, est bien tombé, avec le bond de 17,61 m du Bulgare Hristo Markov, soit 22 cm de mieux. Athlet¡cs Autre surpr¡se en saut en hauteur féminin, et pas des moindres pour Louise Ritter (USA) elle-même qui Atletismo battit la détentrice du record du monde Stefka Kostadi- nova (BUL) avec un bond de 2,03m. Chez les hommes, Cuennadi Avdeenko IURS) fut /e seu/ à franchir 2,38m alors que la bataille pour la médaille d'argent opposa 1 es épreuves d'athlétisme ont débuté le 23 septem- trois heures durant les tro¡s concurren¿s suivants. Ceux- I bre avec le marathon féminin remporté par Rosa ci franchirent 2,36m tous les trois, Hollis Conway (USA), Mota, première médaille d'or féminine du Portugal aux pour avoir réussi au premier essai, remporta la médaille Jeux d'été. Menant Ia course de bout en bout, /a Portu' d'argent suivi de Roudolf Povarn¡tsyne (URS) et de gaise n'a pas pour autant souffert de la solitude du cou' Pazick Sjoberg (SWE), tous deux à la troisième p/ace.