RSS-ленты
РусскийEnglish
Выпуск 12, 2025
Том год страница
Выпуски Авторы PACS Подписчикам Для авторов

Выпуски

 / 

1968

 / 

Апрель

  

Обзоры актуальных проблем


Оптические исследования свойств ударно сжатых конденсированных диэлектриков


СОДЕРЖАНИЕ
Введение
I. Исследование оптических свойств ударно сжатых конденсированных веществ, структуры и гладкости фронта ударных волн большой амплитуды
1. Методика эксперимента
2. Ширина фронта и гладкость ударных волн в конденсированных инертных и взрывчатых веществах
3. Зависимость показателя преломления жидких диэлектриков от плотности. Аномальное поведение ударно сжатого четыреххлористого углерода
4. Исследование оптических свойств ударно сжатых ионных кристаллов. Неравновесные состояния
5. Оптические исследования упруго-пластической волны в стекле 6. Фазовое превращение воды в лед VII при ударном сжатии
II. Исследование равновесного излучения фронта ударной волны. Экспериментальное определение температур
7. О возможности измерения температур ударно сжатых конденсированных веществ. Основы метода
8. Измерение температур ударно сжатых ионных кристаллов и выявление их кривых плавления до давлений 0,5-3 Мбар
9. Измерение температур ударно сжатых плексигласа и четыреххлористого углерода
III. Поглощение света ударно сжатыми ионными кристаллами. Механизм поглощения и проводимости
10. Экспериментальное определение коэффициента поглощения
11. Механизмы поглощения света и проводимости в ударно сжатых ионных кристаллах
IV. Неравновесное излучение ударно сжатых ионных кристаллов
12. Неравновесное излучение при низких температурах. Электролюминесценция ударно сжатого вещества
13. Неравновесное излучение при высоких температурах. Электронная экранировка излучения
Цитированная литература

Текст pdf (4,9 Мб)
English fulltext is available at DOI: 10.1070/PU1968v011n02ABEH003814
PACS: 78.20.Ci, 62.50.+p, 77.84.Nh, 64.70.Dv, 78.60.Fi, 62.30.+d (все)
DOI: 10.3367/UFNr.0094.196804c.0641
URL: https://ufn.ru/ru/articles/1968/4/c/
Цитата: Кормер С Б "Оптические исследования свойств ударно сжатых конденсированных диэлектриков" УФН 94 641–687 (1968)
BibTexBibNote ® (generic)BibNote ® (RIS)MedlineRefWorks

English citation: Kormer S B “Optical study of the characteristics of shock-compressed condensed dielectricsSov. Phys. Usp. 11 229–254 (1968); DOI: 10.1070/PU1968v011n02ABEH003814

Статьи, ссылающиеся на эту (234) ↓ Похожие статьи (20)

  1. Heighway P G, Peake D J et al Journal of Applied Physics 138 (15) (2025)
  2. Mochalov M A, Ilkaev R I Успехи физических наук 195 (09) 939 (2025) [Mochalov M A, Ilkaev R I Phys. Usp. 68 (09) 883 (2025)]
  3. Hawreliak J A, Winey J M, Gupta Y M Phys. Rev. B 110 (13) (2024)
  4. Xu F, Belliard L et al Applied Physics Letters 125 (16) (2024)
  5. Shi X, Zhang L et al Chemical Geology 663 122257 (2024)
  6. Krasilnikov A V, Nesmiyanov E I et al MMPh 16 (4) 96 (2024)
  7. Hameete J, Abdallah M S et al Combustion and Flame 264 113435 (2024)
  8. Ball O B, Prescher C et al Journal of Applied Physics 134 (5) (2023)
  9. Hernandez J -A, Bethkenhagen M et al Nat. Phys. 19 (9) 1280 (2023)
  10. French M, Bethkenhagen M et al Phys. Rev. B 107 (13) (2023)
  11. Zhang N, Li D et al Crystals 12 (10) 1364 (2022)
  12. İbrahimoğlu B, İbrahimoğlu B Critical States at Phase Transitions of Pure Substances Chapter 1 (2022) p. 1
  13. Xue T-W, Guo Z-Yu Sci Rep 12 (1) (2022)
  14. Kulish M I, Mintsev V B et al High Temp 60 (S3) S352 (2022)
  15. Coe J D, Lentz M et al Journal of Applied Physics 131 (12) (2022)
  16. Bordzilovskii S A, Voronin M S, Karakhanov S M Combust Explos Shock Waves 57 (6) 736 (2021)
  17. Fortov V Intense Shock Waves on Earth and in Space Shock Wave and High Pressure Phenomena Chapter 2 (2021) p. 19
  18. Nikolaev D N, Kulish M I et al Contributions to Plasma Physics 61 (10) (2021)
  19. Gilev S D Combust Explos Shock Waves 57 (3) 378 (2021)
  20. Wallace M K, Winey J M, Gupta Y M Journal of Applied Physics 130 (3) (2021)
  21. Hansen L E, Fratanduono D E et al Phys. Rev. B 104 (1) (2021)
  22. Demidov B A, Kazakov E D et al Instrum Exp Tech 63 (3) 370 (2020)
  23. Shurshalov L V Fluid Dyn 55 (6) 751 (2020)
  24. Aganin A A, Mustafin I N Lobachevskii J Math 41 (7) 1143 (2020)
  25. (SHOCK COMPRESSION OF CONDENSED MATTER - 2019: Proceedings of the Conference of the American Physical Society Topical Group on Shock Compression of Condensed Matter) Vol. SHOCK COMPRESSION OF CONDENSED MATTER - 2019: Proceedings of the Conference of the American Physical Society Topical Group on Shock Compression of Condensed MatterShock-wave study of the metallization of alkali halides up to 400 GPaOrianna B.BallMatthew R.DiamondSuzanne J.AliRaymondJeanlozJon H.EggertGilbert W.CollinsR. StewartMcWilliams2272 (2020) p. 100001
  26. Shurshalov L V Combust Explos Shock Waves 56 (1) 106 (2020)
  27. Bordzilovskii S A, Karakhanov S M, Khishchenko K V Shock Waves 30 (5) 505 (2020)
  28. Kanel’ G I High Temp 58 (4) 550 (2020)
  29. He Zh, Jia G et al High Pow Laser Sci Eng 7 (2019)
  30. Jakubowska K, Batani D et al EPL 126 (5) 56001 (2019)
  31. Gilev S D Combust Explos Shock Waves 55 (5) 620 (2019)
  32. Myint P C, Shi E L et al J. Chem. Phys. 150 (7) 074506 (2019)
  33. Millot M, Hamel S et al Nature Phys 14 (3) 297 (2018)
  34. Fat’yanov O V, Asimow P D, Ahrens T J Phys. Rev. B 97 (2) (2018)
  35. He Zh-Yu, Shu H et al Chinese Phys. B 27 (12) 126202 (2018)
  36. He Zh, Jia G et al Eur. Phys. J. D 72 (1) (2018)
  37. Bordzilovskii S A, Karakhanov S M, Khishchenko K V Combust Explos Shock Waves 54 (6) 712 (2018)
  38. Urlin V D J. Exp. Theor. Phys. 127 (1) 121 (2018)
  39. Liang T, Chen W-Q et al Solid State Communications 272 28 (2018)
  40. Xi F, Jin K et al AIP Advances 8 (1) (2018)
  41. Zhang X, Wang G et al J Mater Sci 53 (17) 12628 (2018)
  42. Brown J M Fluid Phase Equilibria 463 18 (2018)
  43. Liu Sh, Li J et al Review of Scientific Instruments 89 (4) (2018)
  44. Tear G R, Chapman D J et al (AIP Conference Proceedings) Vol. 1793 (2017) p. 060005
  45. Driver K P, Militzer B Phys. Rev. E 95 (4) (2017)
  46. Anisichkin V F J Eng Phys Thermophy 90 (4) 978 (2017)
  47. Bordzilovskii S A, Karakhanov S M et al Journal of Applied Physics 120 (13) (2016)
  48. Jones R E, Ward D K Phys. Rev. B 94 (1) (2016)
  49. Fat’yanov O V, Asimow P D Review of Scientific Instruments 86 (10) (2015)
  50. Li Yong-hong, Zhang Ning-chao et al Chinese Journal of Chemical Physics 28 (1) 113 (2015)
  51. Xi F, Jin K et al Journal of Applied Physics 117 (18) (2015)
  52. Liu Q, Zhou X et al Journal of Applied Physics 117 (4) (2015)
  53. Sil’vestrov V V, Bordzilovskii S A et al Combust Explos Shock Waves 51 (1) 116 (2015)
  54. Batani D, Jakubowska K et al EPL 112 (3) 36001 (2015)
  55. Medvedev A B Combust Explos Shock Waves 50 (4) 463 (2014)
  56. Rigg P A, Knudson M D et al Journal of Applied Physics 116 (3) (2014)
  57. Cherepanov G P, Zakirov K R Phys Mesomech 17 (3) 163 (2014)
  58. Bordzilovsky S A, Voronin M S et al Dokl. Phys. 59 (4) 176 (2014)
  59. Yu Y, Wang W et al Phys. Rev. E 89 (4) (2014)
  60. Akin M C, Chau R The Journal of Chemical Physics 139 (2) (2013)
  61. Bowers T S Rock Physics & Phase Relations AGU Reference Shelf (2013) p. 45
  62. Urlin V D J. Exp. Theor. Phys. 117 (5) 833 (2013)
  63. Merzhievskii L A, Voronin M S Combust Explos Shock Waves 48 (2) 226 (2012)
  64. Batsanov S S, Batsanov A S Introduction to Structural Chemistry Chapter 10 (2012) p. 413
  65. Kuksin A Yu, Yanilkin A V Journal of Applied Physics 111 (3) (2012)
  66. Gribin S V, Spesivtsev B I Tech. Phys. 57 (5) 649 (2012)
  67. Peng XiaoJuan, Liu FuSheng et al Sci. China Phys. Mech. Astron. 54 (8) 1443 (2011)
  68. Fratanduono D E, Boehly T R et al Journal of Applied Physics 109 (12) (2011)
  69. Smirnov N A Phys. Rev. B 83 (1) (2011)
  70. Funtikov A I High Temp 49 (3) 439 (2011)
  71. Fratanduono D E, Eggert J H et al Journal of Applied Physics 110 (8) (2011)
  72. Nigmatulin R I, Bolotnova R Kh High Temp 49 (2) 303 (2011)
  73. Chauhan R S, Snehlata K, Singh C P Physica B: Condensed Matter 406 (3) 567 (2011)
  74. Eggert J H, Hicks D G et al Nature Phys 6 (1) 40 (2010)
  75. Sano Yu, Sano T, Nagata Sh Journal of Applied Physics 107 (3) (2010)
  76. Dai Ch, Hu J, Tan H Journal of Applied Physics 106 (4) (2009)
  77. French M, Redmer R J. Phys.: Condens. Matter 21 (37) 375101 (2009)
  78. Magunov A N Instrum Exp Tech 52 (4) 451 (2009)
  79. Ao T, Knudson M D et al Journal of Applied Physics 106 (10) (2009)
  80. Rosenberg Z, Ginzberg A, Dekel E International Journal of Impact Engineering 36 (12) 1365 (2009)
  81. Goldman N, Reed E J, Fried L E The Journal of Chemical Physics 131 (20) (2009)
  82. Nigmatulin R I, Bolotnova R Kh High Temp 46 (3) 325 (2008)
  83. Kaim Y S, Kaim S D Ultrasonics Sonochemistry 15 (5) 700 (2008)
  84. Stewart S T, Seifter A, Obst A W Geophysical Research Letters 35 (23) (2008)
  85. SENFT Laurel E, STEWART Sarah T Meteorit & Planetary Scien 43 (12) 1993 (2008)
  86. Nigmatulin R I, Bolotnova R Kh High Temp 46 (2) 182 (2008)
  87. Tarasov M D, Karpenko I I et al Combust Explos Shock Waves 43 (4) 465 (2007)
  88. Fedorov A V, Mikhailov A L et al Russ. J. Phys. Chem. B 1 (6) 600 (2007)
  89. Kopyshev V P, Medvedev A B, Khrustalev V V Combust Explos Shock Waves 42 (1) 76 (2006)
  90. Reed E J, Soljačić M et al Phys. Rev. Lett. 96 (1) (2006)
  91. Fedorov A V, Mikhailov A L, Nazarov D V Material Properties under Intensive Dynamic Loading Shock Wave and High Pressure Phenomena Chapter 9 (2006) p. 393
  92. Nazarov D V, Mikhailov A L et al Combust Explos Shock Waves 42 (3) 351 (2006)
  93. Mochalov M A Material Properties under Intensive Dynamic Loading Chapter 7 (2006) p. 277
  94. Nellis W J Rep. Prog. Phys. 69 (5) 1479 (2006)
  95. Clérouin J, Laudernet Y et al Phys. Rev. B 72 (15) (2005)
  96. Stewart S T, Ahrens T J J. Geophys. Res. 110 (E3) (2005)
  97. Zhang Zh, Duan Zh Physics of the Earth and Planetary Interiors 149 (3-4) 335 (2005)
  98. Mineev V N, Funtikov A I High Temp 43 (1) 141 (2005)
  99. Mineev V N, Funtikov A I High Temp 43 (1) 141 (2005)
  100. Mineev V N, Funtikov A I High Temp 43 (1) 141 (2005)
  101. Koenig M, Henry E et al Nucl. Fusion 44 (12) S208 (2004)
  102. Dolan D H, Gupta Y M The Journal of Chemical Physics 121 (18) 9050 (2004)
  103. Gudarenko L F, Zhernokletov M V et al Combustion, Explosion, and Shock Waves 40 (3) 344 (2004)
  104. Brazhnikov M A, Gogulya M F Combustion, Explosion, and Shock Waves 40 (1) 110 (2004)
  105. Bradley D K, Eggert J H et al Phys. Rev. Lett. 93 (19) (2004)
  106. Celliers P M, Collins G W et al Physics of Plasmas 11 (8) L41 (2004)
  107. Grishechkin S K, Gruzdev S K et al Jetp Lett. 80 (6) 398 (2004)
  108. Ogura T, Nakamura K G, Kondo Ken-ichi Phys. Rev. B 70 (14) (2004)
  109. Kanel G I, Fortov V E, Razorenov S V Shock-Wave Phenomena and the Properties of Condensed Matter Chapter 6 (2004) p. 189
  110. Kanel G I, Fortov V E, Razorenov S V Shock-Wave Phenomena and the Properties of Condensed Matter Chapter 2 (2004) p. 29
  111. Huser G, Koenig M et al Physics of Plasmas 11 (10) L61 (2004)
  112. Abramson E H, Brown J M Geochimica et Cosmochimica Acta 68 (8) 1827 (2004)
  113. Asay Ja R, Chhabildas L C High-Pressure Shock Compression of Solids VI Chapter 2 (2003) p. 57
  114. Hicks D G, Celliers P M et al Phys. Rev. Lett. 91 (3) (2003)
  115. Assessment of Safety and Risk with a Microscopic Model of Detonation (2003) p. 447
  116. Assessment of Safety and Risk with a Microscopic Model of Detonation (2003) p. 371
  117. Funtikov A I High Temperature 41 (6) 850 (2003)
  118. Xin-Lu Ch, Zi-Jiang L et al Chinese Phys. Lett. 20 (11) 2078 (2003)
  119. Koenig M, Philippe F et al Physics of Plasmas 10 (7) 3026 (2003)
  120. Matsuda A, Nakamura K G, Kondo Ken-ichi Phys. Rev. B 65 (17) (2002)
  121. Gupta S C, Love S G, Ahrens T J Earth and Planetary Science Letters 201 (1) 1 (2002)
  122. Ivanov B A, Deutsch A Physics of the Earth and Planetary Interiors 129 (1-2) 131 (2002)
  123. Fat’yanov O V, Ogura T et al Infrared Physics & Technology 42 (2) 55 (2001)
  124. Sakane Sh, Liu W et al Geochimica et Cosmochimica Acta 65 (21) 4067 (2001)
  125. Molodets A M Combustion, Explosion, and Shock Waves 37 (2) 225 (2001)
  126. Withers A C, Kohn S C et al Geochimica et Cosmochimica Acta 64 (6) 1051 (2000)
  127. Fat’yanov O V, Ogura T et al Applied Physics Letters 77 (7) 960 (2000)
  128. Celliers P M, Collins G W et al Phys. Rev. Lett. 84 (24) 5564 (2000)
  129. Belonoshko A B, Ahuja R, Johansson B Phys. Rev. B 61 (18) 11928 (2000)
  130. Koza M M, Schober H et al Phys. Rev. Lett. 84 (18) 4112 (2000)
  131. Al’tshuler L V, Trunin R F et al Uspekhi Fizicheskikh Nauk 169 (3) 323 (1999)
  132. Gogulya M F, Dolgoborodov A Yu, Brazhnikov M A International Journal of Impact Engineering 23 (1) 283 (1999)
  133. Glukhodedov V D, Kirshanov S I et al J. Exp. Theor. Phys. 89 (2) 292 (1999)
  134. Celliers P M, Collins G W et al Applied Physics Letters 73 (10) 1320 (1998)
  135. Kanel G I, Baumung K et al Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 415 (3) 509 (1998)
  136. Pichahchy A E, Cremers D A, Ferris M J Spectrochimica Acta Part B: Atomic Spectroscopy 52 (1) 25 (1997)
  137. Tarzhanov V I, Zhugin Yu N, Krupnikov K K J Appl Mech Tech Phys 38 (6) 826 (1997)
  138. Johannsen P G, ReiΒ G et al Phys. Rev. B 55 (11) 6865 (1997)
  139. Boehler R, Ross M, Boercker D B Phys. Rev. Lett. 78 (24) 4589 (1997)
  140. Johannsen P G Phys. Rev. B 55 (11) 6856 (1997)
  141. Royce E B, Keeler R N, Mitchell A C Combust Explos Shock Waves 32 (2) 121 (1996)
  142. Phil. Trans. R. Soc. Lond. A 354 (1711) 1333 (1996)
  143. Rybakov A P J Appl Mech Tech Phys 37 (5) 629 (1996)
  144. Boehler R, Ross M, Boercker D B Phys. Rev. B 53 (2) 556 (1996)
  145. Tang W, Jing F et al Journal of Applied Physics 80 (6) 3248 (1996)
  146. Iakubov I T, Kobzev G A Transport and Optical Properties of Nonideal Plasma Chapter 7 (1995) p. 293
  147. Likalter A A, D’yachkov L G, Khomkin A L Transport and Optical Properties of Nonideal Plasma Chapter 2 (1995) p. 43
  148. Hall T A NATO ASI Series Vol. Laser Interactions with Atoms, Solids and PlasmasAbsorption Spectroscopy of Compressed Matter327 Chapter 13 (1994) p. 273
  149. Batsanov S S Effects of Explosions on Materials Chapter 4 (1994) p. 99
  150. Trullàs J, Giró A et al Phys. Rev. B 50 (22) 16279 (1994)
  151. Brodholt J P, Wood B J Geochimica et Cosmochimica Acta 58 (9) 2143 (1994)
  152. Batsanov S S Effects of Explosions on Materials Chapter 1 (1994) p. 1
  153. Brodholt J, Wood B J. Geophys. Res. 98 (B1) 519 (1993)
  154. Yoo C S, Holmes N C et al Phys. Rev. Lett. 70 (25) 3931 (1993)
  155. Boness D A, Brown J M Phys. Rev. Lett. 71 (18) 2931 (1993)
  156. BONESS David, BROWN J Michael Shock Compression of Condensed Matter–1991 (1992) p. 187
  157. YOO C S Shock Compression of Condensed Matter–1991 (1992) p. 721
  158. Bogdanov G E, Rybakov A P J Appl Mech Tech Phys 33 (2) 162 (1992)
  159. FORTOV V E, EFREMOV V P et al Shock Compression of Condensed Matter–1991 (1992) p. 833
  160. Zaretsky E B Shock Waves 2 (2) 113 (1992)
  161. YOO C S, HOLMES N C, SEE E Shock Compression of Condensed Matter–1991 (1992) p. 733
  162. ALTSHULER L V Shock Compression of Condensed Matter–1991 (1992) p. 3
  163. Miller G H, Ahrens T J Rev. Mod. Phys. 63 (4) 919 (1991)
  164. Gustavsen R, Gupta Y M Journal of Applied Physics 69 (2) 918 (1991)
  165. Brodholt J, Wood B Geochimica et Cosmochimica Acta 54 (9) 2611 (1990)
  166. HESS Helmut Strongly Coupled Plasma Physics (1990) p. 483
  167. Svendsen B, Ahrens T J J. Geophys. Res. 95 (B5) 6943 (1990)
  168. HESS Helmut Strongly Coupled Plasma Physics (1990) p. 483
  169. Tan H, Ahrens T J High Pressure Research 2 (3) 159 (1990)
  170. Nellis W J, Yoo C S J. Geophys. Res. 95 (B13) 21749 (1990)
  171. Moore D S, Schmidt S C et al The Journal of Chemical Physics 90 (3) 1368 (1989)
  172. Boslough M B, Ahrens T J Review of Scientific Instruments 60 (12) 3711 (1989)
  173. Mintsev V B, Zaporogets Yu B Contrib. Plasma Phys. 29 (4-5) 493 (1989)
  174. Svendsen B, Bass Ja D, Ahrens T J Physics Reports 180 (6) 333 (1989)
  175. Anisichkin V F Combust Explos Shock Waves 24 (1) 69 (1988)
  176. Bass Ja D, Svendsen B, Ahrens T J Elastic Properties and Equations of State (1988) p. 532
  177. Ross M High Pressure Chemistry and Biochemistry Chapter 2 (1987) p. 9
  178. Svendsen B, Ahrens T J Geophysical Journal International 91 (3) 667 (1987)
  179. Godwal B K Lecture Notes in Physics Vol. Electronic Band Structure and Its ApplicationsA discussion of melting phenomena283 Chapter 24 (1987) p. 395
  180. Bass Ja D, Svendsen B, Ahrens T J Geophysical Monograph Series Vol. High‐Pressure Research in Mineral Physics: A Volume in Honor of Syun‐iti AkimotoThe temperature of shock compressed iron39 (1987) p. 393
  181. Nabatov S S, Dremin A N et al Combust Explos Shock Waves 22 (6) 761 (1987)
  182. Svendsen B, Ahrens T J, Bass Ja D Geophysical Monograph Series Vol. High‐Pressure Research in Mineral Physics: A Volume in Honor of Syun‐iti AkimotoOptical radiation from shock-compressed materials and interfaces39 (1987) p. 403
  183. Revere M, Tosi M P Rep. Prog. Phys. 49 (9) 1001 (1986)
  184. Wise J L, Chhabildas L C Shock Waves in Condensed Matter Chapter 63 (1986) p. 441
  185. Svendsen B, Ahrens T J Shock Waves in Condensed Matter Chapter 87 (1986) p. 607
  186. Schmidt S C, Moore D S et al Advances in Chemical Reaction Dynamics Chapter 26 (1986) p. 425
  187. Boslough M B Journal of Applied Physics 58 (9) 3394 (1985)
  188. Radousky H B, Ross M et al Phys. Rev. B 31 (3) 1457 (1985)
  189. Ross M Rep. Prog. Phys. 48 (1) 1 (1985)
  190. Ross M, Rogers F J Phys. Rev. B 31 (3) 1463 (1985)
  191. Ahrens T J, O’Keefe J D Ices in the Solar System Chapter 43 (1985) p. 631
  192. Fortov V E Experientia Supplementum Vol. Transport Properties of Dense PlasmasExperiment and Physical Models of a Strongly Nonideal Plasma47 Chapter 1 (1984) p. 1
  193. Bakanova A A, Dudoladov I P et al J Appl Mech Tech Phys 24 (2) 204 (1984)
  194. Nellis W J Shock Waves in Condensed Matter 1983 (1984) p. 31
  195. Schmidt S C, Moore D S, Shaner J W Shock Waves in Condensed Matter 1983 (1984) p. 293
  196. Ebeling W, Fortov V E et al Experientia Supplementum Vol. Transport Properties of Dense PlasmasReferences47 Chapter 7 (1984) p. 168
  197. Boslough M B, Ahrens T J, Mitchell A C J. Geophys. Res. 89 (B9) 7845 (1984)
  198. Zvorykin L O, Fal’chenko V M Journal of Engineering Physics 45 (1) 806 (1983)
  199. Lyzenga G A, Ahrens T J, Mitchell A C J. Geophys. Res. 88 (B3) 2431 (1983)
  200. Sharipdzhanov I I, Al’tshuler L V, Brusnikin S E Combust Explos Shock Waves 19 (5) 668 (1983)
  201. Mitchell A C, Nellis W J The Journal of Chemical Physics 76 (12) 6273 (1982)
  202. Ree F H The Journal of Chemical Physics 76 (12) 6287 (1982)
  203. Lyzenga G A, Ahrens T J et al The Journal of Chemical Physics 76 (12) 6282 (1982)
  204. Kupershtokh A L J Appl Mech Tech Phys 21 (6) 790 (1981)
  205. Hamann S D Physics and Chemistry of the Earth 13-14 89 (1981)
  206. Graham R A Shock Waves and High-Strain-Rate Phenomena in Metals Chapter 23 (1981) p. 375
  207. Jeanloz R J. Geophys. Res. 85 (B6) 3163 (1980)
  208. Bloomquist D D, Sheffield S A Journal of Applied Physics 51 (10) 5260 (1980)
  209. Ahrens T J Science 207 (4435) 1035 (1980)
  210. Davison L, Graham R A Physics Reports 55 (4) 255 (1979)
  211. Lyzenga G A, Ahrens T J Review of Scientific Instruments 50 (11) 1421 (1979)
  212. Al’tshuler L V J Appl Mech Tech Phys 19 (4) 496 (1979)
  213. Chhabildas L C, Asay Ja R Journal of Applied Physics 50 (4) 2749 (1979)
  214. MacDonald R A, Tsai D H Physics Reports 46 (1) 1 (1978)
  215. Yakushev V V Combust Explos Shock Waves 14 (2) 131 (1978)
  216. Voskoboinikov I M, Gogulya M F Combust Explos Shock Waves 14 (3) 356 (1978)
  217. Nabatov S S, Yakushev V V, Dremin A N Combust Explos Shock Waves 12 (2) 222 (1977)
  218. Mogilevskii M A, Efremov V V, Mynkin I O Combust Explos Shock Waves 13 (5) 637 (1977)
  219. Duvall G E, Graham R A Rev. Mod. Phys. 49 (3) 523 (1977)
  220. Nesterenko V F, Staver A M Combust Explos Shock Waves 11 (1) 105 (1976)
  221. Adadurov G A, Gustov V V et al Combust Explos Shock Waves 9 (4) 499 (1975)
  222. Fortov V E, Dremin A N Combust Explos Shock Waves 9 (5) 651 (1975)
  223. Hamann S D Modern Aspects of Electrochemistry Chapter 2 (1974) p. 47
  224. Yakushev V V, Nabatov S S, Yakusheva O B Combust Explos Shock Waves 10 (4) 509 (1974)
  225. Grover R, Urtiew P A Journal of Applied Physics 45 (1) 146 (1974)
  226. Urtiew P A, Grover R Journal of Applied Physics 45 (1) 140 (1974)
  227. Bloom G H, Keeler R N Journal of Applied Physics 45 (3) 1200 (1974)
  228. Afanasenkov A N, Voskoboinikov I M et al Combust Explos Shock Waves 10 (3) 343 (1974)
  229. Dremin A N, Ivanov V P, Mikhailov A N Combust Explos Shock Waves 9 (6) 784 (1973)
  230. Mogilevskii M A Combust Explos Shock Waves 9 (6) 795 (1973)
  231. Kurbangalina R Kh, Timokhin N N Combust Explos Shock Waves 6 (4) 445 (1973)
  232. Zamyshlyaev B V, Menzhulin M G J Appl Mech Tech Phys 12 (3) 445 (1973)
  233. Fortov V E J Appl Mech Tech Phys 13 (6) 894 (1972)
  234. BATSANOV S S Preparative Methods in Solid State Chemistry (1972) p. 133
© Успехи физических наук, 1918–2025
Электронная почта: ufn@ufn.ru Телефоны и адреса редакции О журнале Пользовательское соглашение