Issues

 / 

2007

 / 

April

  

Oral issue of the journal “Uspekhi Fizicheskikh Nauk”


Intense shock waves and extreme states of matter


Joint Institute for High Temperatures, Russian Academy of Sciences, ul. Izhorskaya 13/19, Moscow, 127412, Russian Federation

The physical properties of hot dense matter over à broad domain îf the phase diagram are of immediate interest in astrophysics, planetary physics, power engineering, controlled thermonuclear fusion, impulse technologies, enginery, and several special applications. The use of intense shock waves in dynamic physics and high-pressure chemistry has made the exotic high-energy-density states of matter à subject of laboratory experiments and enabled advancing by many orders of magnitude along the pressure scale to range into the megabars and even gigabars. The present report reviews the latest experimental research involving shock waves in nonideal plasmas under conditions of strong collective interparticle interaction. The results of investigations into the thermodynamic, transport, and optical properties of strongly compressed hot matter, as well as into its composition and conductivity, are discussed. Experimental techniques for high energy density cumulation, the drivers of intense shock waves, and methods for the fast diagnostics of high-energy plasma are considered. Also discussed are compression-stimulated physical effects: pressure-induced ionization, plasma phase transitions, the deformation of bound states, plasma blooming (’transparentization’ of plasma), etc. Suggestions for future research are put forward.

Fulltext pdf (1.2 MB)
Fulltext is also available at DOI: 10.1070/PU2007v050n04ABEH006234
PACS: 52.25.−b, 52.35.Tc, 64. (all)
DOI: 10.1070/PU2007v050n04ABEH006234
URL: https://ufn.ru/en/articles/2007/4/c/
000248752700003
2-s2.0-34547843553
2007PhyU...50..333F
Citation: Fortov V E "Intense shock waves and extreme states of matter" Phys. Usp. 50 333–353 (2007)
BibTexBibNote ® (generic)BibNote ® (RIS)MedlineRefWorks

Îðèãèíàë: Ôîðòîâ Â Å «Ìîùíûå óäàðíûå âîëíû è ýêñòðåìàëüíûå ñîñòîÿíèÿ âåùåñòâà» ÓÔÍ 177 347–368 (2007); DOI: 10.3367/UFNr.0177.200704c.0347

References (86) Cited by (101) ↓ Similar articles (7)

  1. Amirkhanov I V, Sarkhadov I et al J. Surf. Investig. 18 348 (2024)
  2. Chemodurov V, Azhermachev S, Litvinova E 0 61 (2024)
  3. Kulish M I, Emel’yanov A N i dr Pribory I Tehnika èksperimenta (1) 100 (2023)
  4. Glezer A M, Sundeev R V et al Uspekhi Fizicheskikh Nauk 193 33 (2023)
  5. [Glezer A M, Sundeev R V et al Phys. Usp. 66 32 (2023)]
  6. Bychkov S SSRN Journal (2023)
  7. Mazhukin V I, Demin M M et al MathMon 57 84 (2023)
  8. Kulish M I, Emelyanov A N et al Instrum Exp Tech 66 92 (2023)
  9. Oreshkin V I, Chaikovsky S A et al 132 (8) (2022)
  10. Singla A, Ray A Phys. Rev. B 105 (6) (2022)
  11. Markov V A, Popov Yu V et al EJSI (11 (131)) (2022)
  12. Ferchaud C, Jarosch S et al Opt. Express 30 34684 (2022)
  13. Lev B I, Zagorodny A G Ukr. J. Phys. 56 700 (2022)
  14. Oreshkin V I, Chaikovsky S A, Oreshkin E V J. Phys.: Conf. Ser. 2064 012018 (2021)
  15. Rousskikh A G, Zhigalin A S, Oreshkin V I J. Phys.: Conf. Ser. 2064 012017 (2021)
  16. Gribkov V A, Latyshev S V et al Inorg. Mater. Appl. Res. 12 361 (2021)
  17. Ali A, Naz G Sh et al Chinese Phys. B 30 033102 (2021)
  18. Fortov V Intense Shock Waves on Earth and in Space Shock Wave And High Pressure Phenomena Chapter 3 (2021) p. 33
  19. Fortov V E, Il’kaev R I et al Her. Russ. Acad. Sci. 91 239 (2021)
  20. Oreshkin V I, Baksht R B IEEE Trans. Plasma Sci. 48 1214 (2020)
  21. Ryzhov V N, Tareyeva E E et al Uspekhi Fizicheskikh Nauk 190 449 (2020) [Ryzhov V N, Tareyeva E E et al Phys.-Usp. 63 417 (2020)]
  22. Oreshkin V, Chaikovsky S et al 2020 7th International Congress on Energy Fluxes and Radiation Effects (EFRE), (2020) p. 302
  23. Gribkov V A, Demin A S et al Inorg. Mater. Appl. Res. 11 349 (2020)
  24. Baranov P F, Zatonov I A J. Phys.: Conf. Ser. 1709 012003 (2020)
  25. Shcherbakov I P, Vettegren V I, Mamalimov R I Izv., Phys. Solid Earth 56 623 (2020)
  26. Bychkov S SSRN Journal (2020)
  27. Datsko I, Labetskaya N et al 2020 7th International Congress on Energy Fluxes and Radiation Effects (EFRE), (2020) p. 73
  28. Zakharov S V Comput. Math. And Math. Phys. 60 821 (2020)
  29. Gus’kov S Yu, Krasyuk I K et al Jetp Lett. 109 516 (2019)
  30. Epifanov N A, Bondarenko G G et al Procedia Manufacturing 37 500 (2019)
  31. George K M, Morrison J T et al High Pow Laser Sci Eng 7 (2019)
  32. Chaikovskii S A, Oreshkin V I et al Russ Phys J 62 1235 (2019)
  33. Khokhlov V A, Petrov Yu V et al J. Phys.: Conf. Ser. 1147 012066 (2019)
  34. Mikhaylyuk A V, Gubskiy K L et al J. Phys.: Conf. Ser. 1147 012059 (2019)
  35. Filippov A V, Starostin A N, Gryaznov V K J. Exp. Theor. Phys. 126 430 (2018)
  36. Rav A, Joshi K D et al Meas. Sci. Technol. 29 025205 (2018)
  37. Shcherbakov I P, Vettegren V I et al Tech. Phys. 63 78 (2018)
  38. Wetta N, Pain Je-Ch, Heuzé O Phys. Rev. E 98 (3) (2018)
  39. Shcherbakov I P, Vettegren V I et al Phys. Solid State 59 575 (2017)
  40. Nigmatulin R I, Bolotnova R Kh High Temp 55 199 (2017)
  41. Tang W-H, Xu B-B et al Acta Phys. Sin. 66 030505 (2017)
  42. Lomonosov I V, Fortova S V High Temp 55 585 (2017)
  43. Fortov V E Springer Series In Materials Science Vol. Extreme States of MatterIntroduction216 Chapter 1 (2016) p. 1
  44. Batani D EPL 114 65001 (2016)
  45. Fortov V E Springer Series In Materials Science Vol. Extreme States of MatterRelativistic Charged Particle Beams216 Chapter 6 (2016) p. 277
  46. Fortov V E Springer Series In Materials Science Vol. Extreme States of MatterMatter Under Extreme Conditions: Classification of States216 Chapter 2 (2016) p. 7
  47. Sharkov B Yu, Hoffmann D H H et al 1 28 (2016)
  48. Semkin N D, Telegin A M Instrum Exp Tech 59 834 (2016)
  49. Mikhaylyuk A V, Koshkin D S et al J. Phys.: Conf. Ser. 774 012057 (2016)
  50. Vettegren V I, Shcherbakov I P et al Phys. Solid State 58 699 (2016)
  51. Prut V V Russ Phys J 59 686 (2016)
  52. Fortov V E Springer Series In Materials Science Vol. Extreme States of MatterHigh Energy Densities in Planets and Stars216 Chapter 9 (2016) p. 505
  53. Vettegren V I, Kuksenko V S, Shcherbakov I P Izv., Phys. Solid Earth 52 754 (2016)
  54. Oreshkin V I, Chaikovsky S A et al 23 (12) (2016)
  55. Shvets V  T Metallofiz. Noveishie Tekhnol. 37 1425 (2016)
  56. Fidanyan K S, Stegailov V V J. Phys.: Conf. Ser. 774 012031 (2016)
  57. Shvets V  T Metallofiz. Noveishie Tekhnol. 36 1287 (2016)
  58. Fortov V E Springer Series In Materials Science Vol. Extreme States of MatterHigh Energy Densities in Laboratories216 Chapter 3 (2016) p. 23
  59. Latyshev S V, Gribkov V A et al Inorg. Mater. Appl. Res. 6 91 (2015)
  60. Palnichenko A V, Shakhrai D V et al Physica C: Superconductivity And Its Applications 512 6 (2015)
  61. Vettegren’ V I, Kuksenko V S et al Phys. Solid State 57 2458 (2015)
  62. Shvets V T Phys. Metals Metallogr. 116 328 (2015)
  63. Bulanov S V, Esirkepov T Zh et al Plasma Phys. Rep. 41 1 (2015)
  64. Vettegren V I, Shcherbakov I P et al Phys. Solid State 56 1828 (2014)
  65. Vettegren V I, Shcherbakov I P et al Phys. Solid State 56 1018 (2014)
  66. Vettegren V I, Voronin A V et al Phys. Solid State 56 317 (2014)
  67. Bel’kov S A, Derkach V N et al 115 (3) (2014)
  68. Fortov V E, Lomonosov I V Uspekhi Fizicheskikh Nauk 184 231 (2014) [Fortov V E, Lomonosov I V Phys.-Usp. 57 219 (2014)]
  69. Palnichenko A V, Sidorov N S et al Physica C: Superconductivity 498 54 (2014)
  70. Zhuravlev Yu N, Lisitsyn V M Russ. J. Phys. Chem. B 8 117 (2014)
  71. Shvets V T, Kozytskiy S V Ukr. J. Phys. 58 458 (2013)
  72. Kuznetsov A, Mikheev N Springer Tracts In Modern Physics Vol. Electroweak Processes in External Active MediaIntroduction252 Chapter 1 (2013) p. 1
  73. Ustinova G K Phys. Atom. Nuclei 76 616 (2013)
  74. Fortov V E, Mintsev V B Russ. Chem. Rev. 82 597 (2013)
  75. Sidorov N S, Palnichenko A V et al Physica C: Superconductivity 488 18 (2013)
  76. Shvets V T, Kozitskii S V Phys. Solid State 55 681 (2013)
  77. Karabutov A A, Kaptilniy A G et al Moscow Univ. Phys. 68 383 (2013)
  78. Shvets V T J. Exp. Theor. Phys. 116 159 (2013)
  79. Belyaev V S, Batishchev P A et al Phys. Atom. Nuclei 76 404 (2013)
  80. Ivochkin A Yu, Kaptilniy A G et al Laser Phys. 22 1220 (2012)
  81. Shvets V T Jetp Lett. 95 29 (2012)
  82. Oreshkin V I, Chaikovsky S A 19 (2) (2012)
  83. Shvets V T Phys. Metals Metallogr. 113 927 (2012)
  84. Fortov V E Extreme States of Matter The Frontiers Collection Chapter 2 (2011) p. 7
  85. Fortov V E Extreme States of Matter The Frontiers Collection Chapter 1 (2011) p. 1
  86. Ustinova G K Geochem. Int. 49 555 (2011)
  87. Fortov V E Extreme States of Matter The Frontiers Collection Chapter 7 (2011) p. 185
  88. Gorbachenko V I, Dovzhenko A Yu et al Dokl. Phys. 55 384 (2010)
  89. Sidorov N S, Palnichenko A V et al Solid State Communications 150 1108 (2010)
  90. Rivalain N, Roquain Je, Demazeau G Biotechnology Advances 28 659 (2010)
  91. Zhukov A N, Sidorov N S et al J. Exp. Theor. Phys. 110 275 (2010)
  92. Shvets V T Carbon Nanomaterials in Clean Energy Hydrogen Systems NATO Science For Peace And Security Series C: Environmental Security Chapter 77 (2009) p. 615
  93. Kornilova A A, Vysotskii V I et al J. Synch. Investig. 3 275 (2009)
  94. Kosyakov V I J Struct Chem 50 60 (2009)
  95. Zhukov A N, Sidorov N S et al High Pressure Research 29 414 (2009)
  96. Bulanov S V, Esirkepov T Zh et al Eur. Phys. J. D 55 483 (2009)
  97. Fortov V E Uspekhi Fizicheskikh Nauk 179 653 (2009) [Fortov V E Phys.-Usp. 52 615 (2009)]
  98. Kosarev I N Tech. Phys. 53 1296 (2008)
  99. Demazeau G 12 933 (2008)
  100. Shvets V T, Vlasenko A S Acta Phys. Pol. A 114 851 (2008)
  101. Shvets V T, Vlasenko A S, Bukhanenko A D Jetp Lett. 86 552 (2007)

© 1918–2024 Uspekhi Fizicheskikh Nauk
Email: ufn@ufn.ru Editorial office contacts About the journal Terms and conditions