DOCSLIB.ORG

Shock Papers 1966-1969

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Shock Papers 1966-1969 Shock Physics Papers 1966-1969 1966, Adadurov, G.A., Breusov, O.N., Dremin, A.N. and Lazarev, A.I. "Preservation of inorganic substances compressed by shock waves" Combust. Explos. Shock Waves 2(4) 82-85 1966, Adams, G.K. and Cowperthwaite, M. "Explicit solutions for unsteady shock propagation in chemically reacting media", in "Proc. Fourth Symp. (Int.) on Detonation", pp. 502-511, publ. Washington DC, Office of Naval Research 1966, Ahrens, T.J. and Duvall, G.E. "Stress relaxation behind elastic shock waves in rocks" J. Geophys. Res. 71 4349-4360 1966, Ahrens, T.J. and Ruderman, M.H. "Immersed foil method for measuring shock waves in wave profiles in solids" J. Appl. Phys. 37 4758-4765 1966, Ahrens, T.J. "High pressure electrical behavior and equation of state of magnesium oxide from shock wave measurements" J. Appl. Phys. 37 2532- 2541 1966, Akimov, A.I., Mirkin, L.I. and Pilipetskii, N.F. "Effect of a laser beam on plexiglas" J. Appl. Mech. Tech. Phys. 7(6) 9-12 1966, Alikhanov, S.G., Budker, G.I., Kichigin, G.N. and Komin, A.V. "Metal shell collapsed in a magnetic field" J. Appl. Mech. Tech. Phys. 7(4) 24-26 1966, Allan, J.W.S. and Lambourn, B.D. "An equation of state of detonation products at pressures below 30 kilobars", in "Proc. Fourth Symp. (Int.) on Detonation", pp. 52-66, publ. Washington DC, Office of Naval Research 1966, Altshuler, L.V., Novikov, S.A. and Divnov, I.I. "The relationship between the critical breaking stresses and the time to failure as a result of the explosive stressing of metals" Sov. Phys. Dokl. 11 79-82 1966, Altshuler, L.V., Bakanova, A.A. and Dudoladov, I.P. "Peculiarities of shock compression of lanthanides" JETP Letts 3 315-317 1966, Anders, E. and Lipschutz, M.E. "Critique of paper by N.L. Carter and G.C. Kennedy 'Origin of diamonds in the Canyon Diablo and Novo Urei meteorites'" J. Geophys. Res. 71 643-661 1966, Andersen, W.H. "Evaluation of the Grüneisen parameter for compressed substances. I: Metals", in "Proc. Fourth Symp. (Int.) on Detonation", pp. 205- 212, publ. Washington DC, Office of Naval Research 1966, Anderson, O.L. "The use of ultrasonic measurements under modest pressure to estimate compression at high pressure" J. Phys. Chem. Solids 27 547-566 1966, Appleton, J.P. "Electrical precursors of ionizing shock waves" Phys. Fluids 9 336-342 1966, Argous, J.P., Peyre, C. and Thouvenin, J. "Observation and study of the conditions for formation of Mach detonation waves", in "Proc. Fourth Symp. (Int.) on Detonation", pp. 135-141, publ. Washington DC, Office of Naval Research 1 1966, Ashbee, K.H.G. and Vassamillet, L.F. "Dislocations in a Campo del Cielo meteorite" Science 151 1526-1527 1966, Ashkinadze, B.M., Vladimirov, V.I., Likhachev, V.A., Ryvkin, S.M., Salmanov, V.M. and Yaroshetskii, I.D. "Breakdown in transparent dielectrics caused by intense laser radiation" Sov. Phys. JETP 23 788-797 1966, Aslanov, S.K. "Investigation of the stability of shock waves in an arbitrary medium" Sov. Phys. Dokl. 11 563-565 1966, Austin, C.F., Cosner, L.N. and Pringle, J.K. "Shock wave attenuation in elastic and anelastic rock media" Trans. Soc. Mining Engrs AIME 235 16-31 1966, Balchan, A.S. and Cowan, G.R. "Shock compression of two iron silicon alloys to 2.7 megabars" J. Geophys. Res. 71 3577-3588 1966, Barkalov, I.M., Goldanskii, V.I., Talroze, V.L. and Yampolskii, P.A. "Intensification of a shock wave by the polymerization energy and the feasibility of a polymerization detonation" JETP Letts 3 200-202 1966, Barkalov, I.M., Goldanskii, V.I., Gustov, V.W., Dremin, A.N., Mikhailov, A.M., Talrose, V.L. and Yampolskii, P.A. "Shock wave vulcanization of rubbers" Proc. Acad. Sci. USSR: Phys. Chem. Sect. 167 1077-???? 1966, Barker, L.M., Butcher, B.M. and Karnes, C.H. "Yield-point phenomenon in impact- loaded 1060 aluminum" J. Appl. Phys. 37 1989-1991 1966, Batsanov, S.S., Deribas, A.A., Kutolin, S.A. and Kostyreva, I.V. "Structural changes in sodium nitrate in shock loading experiments" Combust. Explos. Shock Waves 2(1) 57-59 1966, Batsanov, S.S., Derbeneva, S.S., Deribas, A.A., Dulepov, E.V., Kostyreva, I.V., Kutolin, S.A., Nigmatulina, V.M. and Yudelevich, I.G. "Effect of explosion on matter: Shock compression of nitrates of the alkali metals" Combust. Explos. Shock Waves 2(3) 66-71 1966, Batsanov, S.S., Doronin, G.S. and Kutateladze, S.S. "Parameters of shock compression in steel cylinders" J. Appl. Mech. Tech. Phys. 7(4) 126-127 1966, Belyakov, L.V., Valitskii, V.P., Zlatin, N.A. and Mochalov, S.M. "Melting of lead in a shock wave" Sov. Phys. Dokl. 11 808-810 1966, Belyakov, L.V. and Zlatin, N.A. "Deformation and breakup of massive metal bodies under transient pressure" Sov. Phys. Tech. Phys. 11 261-266 1966, Bergmann, O.R., Cowan, G.R. and Holtzman, A.H. "Experimental evidence of jet formation during explosion cladding" Trans. Metall. Soc. AIME 236 646-653 1966, Bergmann, O.R. and Barrington, J. "Effects of explosive shock waves on ceramic powders" J. Amer. Ceram. Soc. 49 502-507 1966, Bernstein, D. and Goettelman, R.C. "Generation of cylindrically symmetric implosions" Rev. Sci. Instrum. 37 1373-1375 2 1966, Birch, F. "Compressibility: Elastic constants", in "Handbook of Physical Constants (Revised Edition)", ed. S.P. Clark Jr., pp. 153-159, publ. New York, Geological Society of America 1966, Bleich, H.H. and Nelson, I. "Plane waves in an elastic-plastic half-space due to combined surface pressure and shear" Trans. ASME: J. Appl. Mech. 33 149-158 1966, Boade, R.R. "Shock loading of porous tungsten", SC-RR-66-290, Sandia Corporation 1966, Boardman, C.R. and Skrove, J. "Distribution in fracture permeabiltiy of a granite rock mass following a contained nuclear explosion" J. Petrol. Tech. 18 619-623 1966, Bobolev, V.K., Margolin, A.D. and Chuiko, S.V. "Stability of normal burning of porous systems at constant pressure" Combust. Explos. Shock Waves 2(4) 15- 20 1966, Bowden, F.P. "The physics of impact and deformation: Single impact. III: The formation of microjets in liquids under the influence of impact or shock" Phil. Trans. R. Soc. Lond. A 260 94-95 1966, Boyle, V.M., Jameson, R.L. and Sultanoff, M. "Determination of shock Hugoniots for several condensed phase explosives", in "Proc. Fourth Symp. (Int.) on Detonation", pp. 241-247, publ. Washington DC, Office of Naval Research 1966, Brunton, J.H. "The physics of impact and deformation: Single impact. I: High speed liquid impact" Phil. Trans. R. Soc. Lond. A 260 79-85 1966, Bullough, R. and Gilman, J.J. "Elastic explosions in solids caused by radiation" J. Appl. Phys. 37 2283-???? 1966, Burnham, M.W. "Two dimensional steady detonation waves in infinite solid explosive charges", PhD thesis, Univ. of Colorado 1966, Busch, C.W., Oppenheim, A.K. and Smith Jr., H.P. "Pressure wave generation in a fissioning gas. 3: Amplification of the pressure pulse with helium 3 as driver" Phys. Fluids 9 813-814 1966, Butcher, B.M. and Karnes, C.H. "Strain rate effects in metals" J. Appl. Phys. 37 402-411 1966, Butcher, B.M. and Munson, D.E. "The influence of mechanical properties on wave propagation in elastic-plastic materials", in "Proc. 4th Symp. (Int.) on Detonation", pp. 295-304, publ. Washington DC, Office of Naval Research 1966, Cameron, I.G. "An analysis of the errors caused by using artificial viscosity terms to represent steady-state shock waves" J. Comput. Phys. 1 1-20 1966, Canfield, J.M. and Cutchen, J.T. "Effect of ionized impurities on the current from shock-loaded quartz" J. Appl. Phys. 37 4581 1966, Cary, B. "Reply to comments on 'Shock tube study of the thermal dissociation of nitrogen' by Kurt Wray and Stanley Byron" Phys. Fluids 9 1047-1048 3 1966, Chéret, R. "Theoretical considerations on the propagation of shock and detonation waves", in "Proc. Fourth Symp. (Int.) on Detonation", pp. 78-83, publ. Washington DC, Office of Naval Research 1966, Chernyshov, A.D. "On the character of strong jumps in certain complex media" J. Appl. Math. Mech. 30 1226-1232 1966, Chou, P.C. and Allison, F.E. "Strong plane shock produced by hypervelocity impact and late-state equivalence" J. Appl. Phys. 37 853-860 1966, Clark, G.B. and Rupert, G.B. "Plane and spherical waves in a Voigt medium" J. Geophys. Res. 71 2047-2053 1966, Cohen, J.B., Nelson, A. and De Angelis, R.J. "Some observations on shock loaded copper" Trans. Metall. Soc. AIME 236 133-135 1966, Coleburn, N.L. "Sensitivity of composite and double-base propellants to shock waves" AIAA Journal 4 521-525 1966, Coleburn, N.L. and Liddiard Jr., T.P. "The Hugoniot equations of state of several unreacted explosives" J. Chem. Phys. 44 1929-1936 1966, Coleman, B.D. and Gurtin, M.E. "Thermodynamics and one dimensional shock waves in materials with memory" Proc. R. Soc. Lond. A 292 562-574 1966, Coleman, B.D., Greenberg, J.M. and Gurtin, M.E. "Waves in materials with memory. 5: On the amplitude of acceleration waves and mild discontinuities" Arch. Ration. Mech. Anal. 22 333-354 1966, Collins, W.D. "One-dimensional non-linear wave propagation in incompressible elastic materials" Quart. J. Mech. Appl. Math. 19 259-328 1966, Cowperthwaite, M. "Significance of some equations of state obtained from shock wave data" Amer. J. Phys. 34 1025-1030 1966, Creswell, R., Di Valentin, M.A. and Dove, J.E.
Load more

Recommended publications
  • Placing World War I in the History of Mathematics David Aubin, Catherine Goldstein
    Placing World War I in the History of Mathematics David Aubin, Catherine Goldstein To cite this version: David Aubin, Catherine Goldstein. Placing World War I in the History of Mathematics. 2013. hal- 00830121v1 HAL Id: hal-00830121 https://hal.sorbonne-universite.fr/hal-00830121v1 Preprint submitted on 4 Jun 2013 (v1), last revised 8 Jul 2014 (v2) HAL is a multi-disciplinary open access L’archive ouverte pluridisciplinaire HAL, est archive for the deposit and dissemination of sci- destinée au dépôt et à la diffusion de documents entific research documents, whether they are pub- scientifiques de niveau recherche, publiés ou non, lished or not. The documents may come from émanant des établissements d’enseignement et de teaching and research institutions in France or recherche français ou étrangers, des laboratoires abroad, or from public or private research centers. publics ou privés. Placing World War I in the History of Mathematics David Aubin and Catherine Goldstein Abstract. In the historical literature, opposite conclusions were drawn about the impact of the First World War on mathematics. In this chapter, the case is made that the war was an important event for the history of mathematics. We show that although mathematicians' experience of the war was extremely varied, its impact was decisive on the life of a great number of them. We present an overview of some uses of mathematics in war and of the development of mathematics during the war. We conclude by arguing that the war also was a crucial factor in the institutional modernization of mathematics. Les vrais adversaires, dans la guerre d'aujourd'hui, ce sont les professeurs de math´ematiques`aleur table, les physiciens et les chimistes dans leur laboratoire.
    [Show full text]
  • Martian Crater Morphology
    ANALYSIS OF THE DEPTH-DIAMETER RELATIONSHIP OF MARTIAN CRATERS A Capstone Experience Thesis Presented by Jared Howenstine Completion Date: May 2006 Approved By: Professor M. Darby Dyar, Astronomy Professor Christopher Condit, Geology Professor Judith Young, Astronomy Abstract Title: Analysis of the Depth-Diameter Relationship of Martian Craters Author: Jared Howenstine, Astronomy Approved By: Judith Young, Astronomy Approved By: M. Darby Dyar, Astronomy Approved By: Christopher Condit, Geology CE Type: Departmental Honors Project Using a gridded version of maritan topography with the computer program Gridview, this project studied the depth-diameter relationship of martian impact craters. The work encompasses 361 profiles of impacts with diameters larger than 15 kilometers and is a continuation of work that was started at the Lunar and Planetary Institute in Houston, Texas under the guidance of Dr. Walter S. Keifer. Using the most ‘pristine,’ or deepest craters in the data a depth-diameter relationship was determined: d = 0.610D 0.327 , where d is the depth of the crater and D is the diameter of the crater, both in kilometers. This relationship can then be used to estimate the theoretical depth of any impact radius, and therefore can be used to estimate the pristine shape of the crater. With a depth-diameter ratio for a particular crater, the measured depth can then be compared to this theoretical value and an estimate of the amount of material within the crater, or fill, can then be calculated. The data includes 140 named impact craters, 3 basins, and 218 other impacts. The named data encompasses all named impact structures of greater than 100 kilometers in diameter.
    [Show full text]
  • Discrete Element Modelling of Pit Crater Formation on Mars
    geosciences Article Discrete Element Modelling of Pit Crater Formation on Mars Stuart Hardy 1,2 1 ICREA (Institució Catalana de Recerca i Estudis Avançats), Passeig Lluís Companys 23, 08010 Barcelona, Spain; [email protected]; Tel.: +34-934-02-13-76 2 Departament de Dinàmica de la Terra i de l’Oceà, Facultat de Ciències de la Terra, Universitat de Barcelona, C/Martí i Franqués s/n, 08028 Barcelona, Spain Abstract: Pit craters are now recognised as being an important part of the surface morphology and structure of many planetary bodies, and are particularly remarkable on Mars. They are thought to arise from the drainage or collapse of a relatively weak surficial material into an open (or widening) void in a much stronger material below. These craters have a very distinctive expression, often presenting funnel-, cone-, or bowl-shaped geometries. Analogue models of pit crater formation produce pits that typically have steep, nearly conical cross sections, but only show the surface expression of their initiation and evolution. Numerical modelling studies of pit crater formation are limited and have produced some interesting, but nonetheless puzzling, results. Presented here is a high-resolution, 2D discrete element model of weak cover (regolith) collapse into either a static or a widening underlying void. Frictional and frictional-cohesive discrete elements are used to represent a range of probable cover rheologies. Under Martian gravitational conditions, frictional-cohesive and frictional materials both produce cone- and bowl-shaped pit craters. For a given cover thickness, the specific crater shape depends on the amount of underlying void space created for drainage.
    [Show full text]
  • Long-Term Historical and Projected Herbivore Population Dynamics in Ngorongoro Crater, Tanzania
    PLOS ONE RESEARCH ARTICLE Long-term historical and projected herbivore population dynamics in Ngorongoro crater, Tanzania 1³ 2³ 2 3 Patricia D. Moehlman , Joseph O. OgutuID *, Hans-Peter Piepho , Victor A. Runyoro , Michael B. Coughenour4, Randall B. Boone5 1 IUCN/SSC Equid Specialist Group, Arusha, Arusha, Tanzania, 2 Institute for Crop Science-340, University of Hohenheim, Stuttgart, Germany, 3 Environmental Reliance Consultants Limited, Arusha, Tanzania, 4 Department of Ecosystem Science and Sustainability, Colorado State University, Fort Collins, Colorado, United States of America, 5 Natural Resource Ecology Laboratory, Colorado State University, Fort Collins, a1111111111 Colorado, United States of America a1111111111 a1111111111 ³ PDM and JOO are joint first authors on this work. a1111111111 * [email protected] a1111111111 Abstract The Ngorongoro Crater is an intact caldera with an area of approximately 310 km2 located OPEN ACCESS within the Ngorongoro Conservation Area (NCA) in northern Tanzania. It is known for the Citation: Moehlman PD, Ogutu JO, Piepho H-P, abundance and diversity of its wildlife and is a UNESCO World Heritage Site and an Interna- Runyoro VA, Coughenour MB, Boone RB (2020) tional Biosphere Reserve. Long term records (1963±2012) on herbivore populations, vege- Long-term historical and projected herbivore population dynamics in Ngorongoro crater, tation and rainfall made it possible to analyze historic and project future herbivore population Tanzania. PLoS ONE 15(3): e0212530. https://doi. dynamics. NCA was established as a multiple use area in 1959. In 1974 there was a pertur- org/10.1371/journal.pone.0212530 bation in that resident Maasai and their livestock were removed from the Ngorongoro Crater.
    [Show full text]
  • Appendix I Lunar and Martian Nomenclature
    APPENDIX I LUNAR AND MARTIAN NOMENCLATURE LUNAR AND MARTIAN NOMENCLATURE A large number of names of craters and other features on the Moon and Mars, were accepted by the IAU General Assemblies X (Moscow, 1958), XI (Berkeley, 1961), XII (Hamburg, 1964), XIV (Brighton, 1970), and XV (Sydney, 1973). The names were suggested by the appropriate IAU Commissions (16 and 17). In particular the Lunar names accepted at the XIVth and XVth General Assemblies were recommended by the 'Working Group on Lunar Nomenclature' under the Chairmanship of Dr D. H. Menzel. The Martian names were suggested by the 'Working Group on Martian Nomenclature' under the Chairmanship of Dr G. de Vaucouleurs. At the XVth General Assembly a new 'Working Group on Planetary System Nomenclature' was formed (Chairman: Dr P. M. Millman) comprising various Task Groups, one for each particular subject. For further references see: [AU Trans. X, 259-263, 1960; XIB, 236-238, 1962; Xlffi, 203-204, 1966; xnffi, 99-105, 1968; XIVB, 63, 129, 139, 1971; Space Sci. Rev. 12, 136-186, 1971. Because at the recent General Assemblies some small changes, or corrections, were made, the complete list of Lunar and Martian Topographic Features is published here. Table 1 Lunar Craters Abbe 58S,174E Balboa 19N,83W Abbot 6N,55E Baldet 54S, 151W Abel 34S,85E Balmer 20S,70E Abul Wafa 2N,ll7E Banachiewicz 5N,80E Adams 32S,69E Banting 26N,16E Aitken 17S,173E Barbier 248, 158E AI-Biruni 18N,93E Barnard 30S,86E Alden 24S, lllE Barringer 29S,151W Aldrin I.4N,22.1E Bartels 24N,90W Alekhin 68S,131W Becquerei
    [Show full text]
  • The Very Forward CASTOR Calorimeter of the CMS Experiment
    EUROPEAN ORGANIZATION FOR NUCLEAR RESEARCH (CERN) CERN-EP-2020-180 2021/02/11 CMS-PRF-18-002 The very forward CASTOR calorimeter of the CMS experiment The CMS Collaboration* Abstract The physics motivation, detector design, triggers, calibration, alignment, simulation, and overall performance of the very forward CASTOR calorimeter of the CMS exper- iment are reviewed. The CASTOR Cherenkov sampling calorimeter is located very close to the LHC beam line, at a radial distance of about 1 cm from the beam pipe, and at 14.4 m from the CMS interaction point, covering the pseudorapidity range of −6.6 < h < −5.2. It was designed to withstand high ambient radiation and strong magnetic fields. The performance of the detector in measurements of forward energy density, jets, and processes characterized by rapidity gaps, is reviewed using data collected in proton and nuclear collisions at the LHC. ”Published in the Journal of Instrumentation as doi:10.1088/1748-0221/16/02/P02010.” arXiv:2011.01185v2 [physics.ins-det] 10 Feb 2021 © 2021 CERN for the benefit of the CMS Collaboration. CC-BY-4.0 license *See Appendix A for the list of collaboration members Contents 1 Contents 1 Introduction . .1 2 Physics motivation . .3 2.1 Forward physics in proton-proton collisions . .3 2.2 Ultrahigh-energy cosmic ray air showers . .5 2.3 Proton-nucleus and nucleus-nucleus collisions . .5 3 Detector design . .6 4 Triggers and operation . .9 5 Event reconstruction and calibration . 12 5.1 Noise and baseline . 13 5.2 Gain correction factors . 15 5.3 Channel-by-channel intercalibration .
    [Show full text]
  • 2008 Medals & Awards G.K. Gilbert Award
    2008 MEDALS & AWARDS G.K. GILBERT AWARD The scientific achievements from the of the next generation of scientists. Ladies TES experiment are too numerous to list here, and gentlemen, I am honored to present the Presented to Philip R. Christensen but we can highlight one that stands apart 2008 recipient of the G. K. Gilbert Award from all the others, and which was critically by the Planetary Geology Division of GSA, important for planetary geology, and that Professor Phil Christensen. was the proposed identification of hematite in specific locations on Mars based on TES data. If this hypothesis could be shown to be Response by Philip R. Christensen correct, it would have profound implications Let me begin by expressing how for the history of Mars and the evolution of deeply honored I am to be receiving the its surface. Based on this hypothesis, one of G.K. Gilbert award. When I am asked what the Mars Exploration Rover (MER) sites was it is I do, I always respond by saying that I selected to test the idea and provide “ground am a geologist - not a Mars scientist, or a truth” for the IR remote sensing data. As geophysicist, or an instrument builder - so is well known now, the MER Opportunity receiving this award from the Geological results confirmed the existence of hematite Society of America is truly an honor. I would and, coupled with other observations, have like to specifically thank Ron Greeley and shown the critical role played by water in all those who supported my nomination, and Philip R.
    [Show full text]
  • Orthodox Political Theologies: Clergy, Intelligentsia and Social Christianity in Revolutionary Russia
    DOI: 10.14754/CEU.2020.08 ORTHODOX POLITICAL THEOLOGIES: CLERGY, INTELLIGENTSIA AND SOCIAL CHRISTIANITY IN REVOLUTIONARY RUSSIA Alexandra Medzibrodszky A DISSERTATION in History Presented to the Faculties of the Central European University In Partial Fulfilment of the Requirements for the Degree of Doctor of Philosophy CEU eTD Collection Budapest, Hungary 2020 Dissertation Supervisor: Matthias Riedl DOI: 10.14754/CEU.2020.08 Copyright Notice and Statement of Responsibility Copyright in the text of this dissertation rests with the Author. Copies by any process, either in full or part, may be made only in accordance with the instructions given by the Author and lodged in the Central European Library. Details may be obtained from the librarian. This page must form a part of any such copies made. Further copies made in accordance with such instructions may not be made without the written permission of the Author. I hereby declare that this dissertation contains no materials accepted for any other degrees in any other institutions and no materials previously written and/or published by another person unless otherwise noted. CEU eTD Collection ii DOI: 10.14754/CEU.2020.08 Technical Notes Transliteration of Russian Cyrillic in the dissertation is according to the simplified Library of Congress transliteration system. Well-known names, however, are transliterated in their more familiar form, for instance, ‘Tolstoy’ instead of ‘Tolstoii’. All translations are mine unless otherwise indicated. Dates before February 1918 are according to the Julian style calendar which is twelve days behind the Gregorian calendar in the nineteenth century and thirteen days behind in the twentieth century.
    [Show full text]
  • SR-SAG2 Report Refsappsfigcaps V25
    References : Abramov, O. and Kring, D.A. (2005) Impact-induced hydrothermal activity on early Mars. J. Geophys. Res. 110:E12S09. Acuña, M.H., Connerney, J.E.P., Ness, N.F., Lin, R.P., Mitchell, D., Carlson, C.W., McFadden, J., Anderson, K.A., Reme, H., Mazelle, C., Vignes, D., Wasilewski, P., and Cloutier, P. (1999) Global distribution of crustal magnetization discovered by the Mars Global Surveyor MAG/ER Experiment. Science 284:790–793. Aharonson, O. and Schorghofer, N. (2006) Subsurface ice on Mars with rough topography. J. Geophys. Res. 111:E11007, doi:10.1029/2005JE002636. Aharonson, O., Schorghofer, N., and Gerstell, M.F. (2003) Slope streak formation and dust deposition rates on Mars. J. Geophys. Res. (Planets) 108:5138. Aller, R.C. and Rude, P.D. (1988) Complete oxidation of solid phase sulfides by manganese and bacteria in anoxic marine sediments. Geochim. Cosmochim. Acta 52:751–765. Amato, P. and Christner, B.C. (2009) Energy metabolism response to low-temperature and frozen conditions in psychrobacter cryohalolentis. Appl. Environ. Microbiol. 75:711–718. Appelbaum, J. and Flood, D.J. (1990) Solar radiation on Mars. Solar Energy 45:353–363. Armstrong, J.C., Nielson, S.K., and Titus, T.N. (2007) Survey of TES high albedo events in Mars’ northern polar craters. Geophys. Res. Lett. 34:L01202, doi:10.1029/2006GL027960. Armstrong, J.C., Titus, T.N., and Kieffer, H.H. (2005) Evidence for subsurface water ice in Korolev crater, Mars. Icarus 174:360–372. Arvidson, R.E., Adams, D., Bonfiglio, G., Christensen, P., Cull, S., Golombek, M., Guinn, J., Guinness, E., Heet, T., Kirk, R., Knudson, A., Malin, M., Mellon, M., McEwen, A., Mushkin, A., Parker, T., Seelos, F., Seelos, K., Smith, P., Spencer, D., Stein, T., Tamppari, L.
    [Show full text]
  • Alcolapia Grahami)
    Evolution of Fish in Extreme Environments: Insights from the Magadi tilapia (Alcolapia grahami) Dissertation submitted for the degree of Doctor of Natural Sciences (Dr. rer. Nat) Presented by Geraldine Dorcas Kavembe at the Faculty of Sciences Department of Biology Konstanz, 2015 Konstanzer Online-Publikations-System (KOPS) URL: http://nbn-resolving.de/urn:nbn:de:bsz:352-0-290866 ACKNOWLEDGEMENTS The University of Konstanz is a wonderful place to study fish biology. It is strategically located at the heart of Lake Constance (the Bodensee) and at the mouth of River Rhine. Even more fascinating, I have been very fortunate to pursue my PhD studies surrounded by an inspiring group of budding and accomplished evolutionary biologists, who define the Meyer lab. I must admit it is impossible to acknowledge all individuals who in one way or another contributed to the completion of this thesis, but I would like to acknowledge some key individuals and institutions for their significant contributions. First, I thank my supervisors: Prof. Dr. Axel Meyer and Prof Dr. Chris Wood for accepting to mentor and walk with me during my PhD research. The great discussions, immense support and your patience with me gave me the impetus to carry on even when everything seemed impossible. Axel and Chris, thank you for believing and investing your time and resources in me. I thank Prof. Dr. Mark van Kleunen for accepting to serve in my defense committee. I am grateful to Dr. Gonzalo Machado-Schiaffino who despite constantly reminding me that he was not my supervisor has been my undercover mentor throughout all my projects.
    [Show full text]
  • Ebook < Impact Craters on Mars # Download
    7QJ1F2HIVR # Impact craters on Mars « Doc Impact craters on Mars By - Reference Series Books LLC Mrz 2012, 2012. Taschenbuch. Book Condition: Neu. 254x192x10 mm. This item is printed on demand - Print on Demand Neuware - Source: Wikipedia. Pages: 50. Chapters: List of craters on Mars: A-L, List of craters on Mars: M-Z, Ross Crater, Hellas Planitia, Victoria, Endurance, Eberswalde, Eagle, Endeavour, Gusev, Mariner, Hale, Tooting, Zunil, Yuty, Miyamoto, Holden, Oudemans, Lyot, Becquerel, Aram Chaos, Nicholson, Columbus, Henry, Erebus, Schiaparelli, Jezero, Bonneville, Gale, Rampart crater, Ptolemaeus, Nereus, Zumba, Huygens, Moreux, Galle, Antoniadi, Vostok, Wislicenus, Penticton, Russell, Tikhonravov, Newton, Dinorwic, Airy-0, Mojave, Virrat, Vernal, Koga, Secchi, Pedestal crater, Beagle, List of catenae on Mars, Santa Maria, Denning, Caxias, Sripur, Llanesco, Tugaske, Heimdal, Nhill, Beer, Brashear Crater, Cassini, Mädler, Terby, Vishniac, Asimov, Emma Dean, Iazu, Lomonosov, Fram, Lowell, Ritchey, Dawes, Atlantis basin, Bouguer Crater, Hutton, Reuyl, Porter, Molesworth, Cerulli, Heinlein, Lockyer, Kepler, Kunowsky, Milankovic, Korolev, Canso, Herschel, Escalante, Proctor, Davies, Boeddicker, Flaugergues, Persbo, Crivitz, Saheki, Crommlin, Sibu, Bernard, Gold, Kinkora, Trouvelot, Orson Welles, Dromore, Philips, Tractus Catena, Lod, Bok, Stokes, Pickering, Eddie, Curie, Bonestell, Hartwig, Schaeberle, Bond, Pettit, Fesenkov, Púnsk, Dejnev, Maunder, Mohawk, Green, Tycho Brahe, Arandas, Pangboche, Arago, Semeykin, Pasteur, Rabe, Sagan, Thira, Gilbert, Arkhangelsky, Burroughs, Kaiser, Spallanzani, Galdakao, Baltisk, Bacolor, Timbuktu,... READ ONLINE [ 7.66 MB ] Reviews If you need to adding benefit, a must buy book. Better then never, though i am quite late in start reading this one. I discovered this publication from my i and dad advised this pdf to find out. -- Mrs. Glenda Rodriguez A brand new e-book with a new viewpoint.
    [Show full text]
  • Reassembling the Environmental Archives of the Cold War
    . . Reassembling the Environmental Archives of the Cold War Cold the of Archives Environmental the Reassembling Doctoral Thesis in History of Science, Technology, and Environment Reassembling the Environmental Archives of the Cold War Perspectives from the Russian North DMITRY V. ARZYUTOV ISBN TRITAABEDLT KTH www.kth.se Stockholm, Sweden Reassembling the Environmental Archives of the Cold War Perspectives from the Russian North DMITRY V. ARZYUTOV Academic Dissertation which, with due permission of the KTH Royal Institute of Technology, is submitted for public defence for the Degree of Doctor of Philosophy on on Friday the 20th August 2021, at 4:00 p.m. through video conferencing. Doctoral Thesis in History of Science, Technology, and Environment KTH Royal Institute of Technology Stockholm, Sweden 2021 © Dmitry V. Arzyutov ISBN 978-91-7873-931-8 TRITA-ABE-DLT-2127 Printed by: Universitetsservice US-AB, Sweden 2021 Моей семье с любовью Alla mia famiglia con amore Acknowledgments Producing texts always means producing relations. The present dissertation is not an exception. Its initial idea emerged when I was in the field in Yamal with my Nenets family of Okotetto and Yaungad. It crystallized over the conversations with my supervisors Peder Roberts, Per Högselius and Julia Lajus, and with my colleagues and friends at the Division of History of Science, Technology and Environment at KTH Royal Institute of Technology. And it ultimately has come to its material form in my home with my Russian-Italian family. The multi-sited life of the text intertwines with life histories of a great number of people whose names I am hardly able to mention here but whose voices, knowledge, and emotions are in this work.
    [Show full text]