RSS-ленты
РусскийEnglish
Выпуск 4, 2026
Том год страница
Выпуски Авторы PACS Подписчикам Для авторов

Выпуски

 / 

1996

 / 

Январь

  

Обзоры актуальных проблем


Лазерное управление процессами в твердом теле

 а,  а,  б
а Институт проблем лазерных и информационных технологий, ул. Пионерская 2, Троицк, Москва, 142092, Российская Федерация
б Физический институт им. П.Н. Лебедева РАН, Ленинский проспект 53, Москва, 119991, Российская Федерация

Большой объем информации, содержащейся в энергетических, спектральных, пространственно-временных характеристиках лазерного луча открывает возможности лазерного управления процессами в твердом теле. Рассмотрено влияние лазерного излучения в широком диапазоне энерговкладов на самые разные процессы, включая рост кристаллов, образование диссипативных (пространственных и временных) структур дефектов на поверхности и в объеме твердого тела, неустойчивости в расплавах, разрушение материалов как на основе селективности, так и самоорганизации. Проанализированы взаимосвязи типа и параметров структур с характеристиками лазерного излучения.

Текст pdf (568 Кб)
English fulltext is available at DOI: 10.1070/PU1996v039n01ABEH000125
PACS: 61.80.Ba, 42.62.Hk
DOI: 10.3367/UFNr.0166.199601a.0003
URL: https://ufn.ru/ru/articles/1996/1/a/
A1996TZ81500001
Цитата: Мирзоев Ф Х, Панченко В Я, Шелепин Л А "Лазерное управление процессами в твердом теле" УФН 166 3–32 (1996)
BibTexBibNote ® (generic)BibNote ® (RIS)MedlineRefWorks

English citation: Mirzoev F Kh, Panchenko V Ya, Shelepin L A “Laser control processes in solidsPhys. Usp. 39 1–29 (1996); DOI: 10.1070/PU1996v039n01ABEH000125

Список литературы (183) Статьи, ссылающиеся на эту (114) ↓ Похожие статьи (20)

  1. Erofeev V I, Kolesov D A, Malkhanov A O Advanced Structured Materials Vol. Mechanics and Acoustics of MetamaterialsPlane Longitudinal Strain Waves in Auxetic Materials with Point Defects245 Chapter 2 (2026) p. 9
  2. Xin T, Kharchenko D O et al Phys. Scr. 101 (12) 125912 (2026)
  3. Potekaev A I, Gromov V E et al High-Speed Steel After Tempering and Electron Beam Processing SpringerBriefs in Applied Sciences and Technology Chapter 1 (2025) p. 1
  4. Erofeev V I, Leonteva A V, Shekoyan A V Advanced Structured Materials Vol. Dynamics of Discrete and Continuum Structures and MediaDispersion, Attenuation and Nonlinear Spatial Locality of Longitudinal Waves Propagating in Materials with Point Defects221 Chapter 11 (2025) p. 251
  5. Morozov N F, Indeitsev D A et al Acta Mech 235 (7) 4141 (2024)
  6. Prog. Phys. Met. 25 (1) (2024)
  7. Chepak-Gizbrekht M V, Knyazeva A G Solid State Ionics 400 116323 (2023)
  8. Ushakov I, Safronov I Bulletin of State University of Education. Series: Physics and Mathematics (3) 43 (2023)
  9. Glazov A L, Muratikov K L Tech. Phys. Lett. 49 (S1) S1 (2023)
  10. Glazov A L, Muratikov K L Tech. Phys. Lett. 49 (12) 261 (2023)
  11. Vlasenko O I Optoelektron. napìvprovìd. teh. 57 43 (2022)
  12. Vasil’ev S V, Val’ko N G et al J Eng Phys Thermophy 95 (3) 821 (2022)
  13. Glazov A L, Muratikov K L Phys. Rev. B 105 (21) (2022)
  14. Kharchenko V O, Xin T et al Modelling Simul. Mater. Sci. Eng. 30 (7) 075006 (2022)
  15. Kulchin Y N, Gribova V V et al Bull. Russ. Acad. Sci. Phys. 86 (S1) S108 (2022)
  16. Glazov A L, Muratikov K L Journal of Applied Physics 131 (24) (2022)
  17. Porubov A V, Belyaev A K, Polyanskiy V A Continuum Mech. Thermodyn. 33 (4) 933 (2021)
  18. Shchokotova O  M, Kharchenko D  O et al Metallofiz. Noveishie Tekhnol. 43 (11) 1489 (2021)
  19. Dvornichenko A V, Shchokotova O M Springer Proceedings in Physics Vol. Nanomaterials and Nanocomposites, Nanostructure Surfaces, and Their ApplicationsModeling Multilayer Pyramidal-Like Adsorbate Structures Growth During Deposition at Homoepitaxy246 Chapter 31 (2021) p. 425
  20. Glazov A L, Muratikov K L Phys. Solid State 63 (5) 702 (2021)
  21. Kharchenko D O, Kharchenko V O et al Journal of Applied Physics 129 (3) (2021)
  22. Erofeev V I, Leonteva A V, Shekoyan A V Advanced Structured Materials Vol. Multiscale Solid MechanicsDispersion, Attenuation and Spatial Localization of Thermoelastic Waves in a Medium with Point Defects141 Chapter 10 (2021) p. 123
  23. Zavalov Yu N, Dubrov A V Sensors 21 (24) 8402 (2021)
  24. Kim V A, Aung N T et al Lecture Notes in Networks and Systems Vol. Current Problems and Ways of Industry Development: Equipment and TechnologiesDissipative Structures of Laser-Hardened Structural Steels200 Chapter 49 (2021) p. 458
  25. (PROCEEDINGS OF THE INTERNATIONAL CONFERENCE ON PHYSICAL MESOMECHANICS. MATERIALS WITH MULTILEVEL HIERARCHICAL STRUCTURE AND INTELLIGENT MANUFACTURING TECHNOLOGY) Vol. PROCEEDINGS OF THE INTERNATIONAL CONFERENCE ON PHYSICAL MESOMECHANICS. MATERIALS WITH MULTILEVEL HIERARCHICAL STRUCTURE AND INTELLIGENT MANUFACTURING TECHNOLOGYTemperature evolution in a two-layer material with the alteration of optical properties during laser processingMariaChepak-GizbrekhtAnnaKnyazeva2310 (2020) p. 020057
  26. Bonino V, Torsello D et al J Synchrotron Rad 27 (6) 1662 (2020)
  27. Mirzade F, Seidgazov R 2020 International Conference on Information Technology and Nanotechnology (ITNT), (2020) p. 1
  28. Erofeev V I, Leont’eva A V, Shekoyan A V Tech. Phys. 65 (1) 22 (2020)
  29. Kharchenko D O, Shchokotova O M et al Radiation Effects and Defects in Solids 175 (7-8) 602 (2020)
  30. Glazov A L, Muratikov K L J. Phys.: Conf. Ser. 1697 (1) 012186 (2020)
  31. Glazov A L, Muratikov K L Journal of Applied Physics 128 (9) (2020)
  32. Kim V A, Thein A N SSP 299 933 (2020)
  33. Zmievskaya G I Phys. Solid State 62 (1) 42 (2020)
  34. Sarychev V, Nevskii S A et al KEM 839 32 (2020)
  35. Mirzade F Kh J. Phys.: Conf. Ser. 1368 (2) 022043 (2019)
  36. Sarychev V, Nevskii S et al Mater. Res. Express 6 (7) 076551 (2019)
  37. Lapshinov B A, Timchenko N I Inorg. Mater. Appl. Res. 10 (3) 535 (2019)
  38. Ivanov Yu  F, Zagulyaev D  V et al Usp. Fiz. Met. 20 (3) 447 (2019)
  39. Oliinyk O V, Tatarenko V A Radiation Effects and Defects in Solids 174 (5-6) 519 (2019)
  40. Mirzade F Kh 2019 IEEE 8th International Conference on Advanced Optoelectronics and Lasers (CAOL), (2019) p. 348
  41. Klassen N V, Vasin A A, Polyanin K A Inorg. Mater. Appl. Res. 9 (4) 570 (2018)
  42. Sarychev V, Nevskii S et al Mater. Res. Express 6 (2) 026540 (2018)
  43. Kharchenko D O, Kharchenko V O et al Radiation Effects and Defects in Solids 173 (7-8) 527 (2018)
  44. Kharchenko D O, Dvornichenko A V et al 2018 IEEE 8th International Conference Nanomaterials: Application & Properties (NAP), (2018) p. 1
  45. Erofeev V I, Leonteva A V, Malhanov A O Bull. Russ. Acad. Sci. Phys. 82 (5) 520 (2018)
  46. Kharchenko V O, Lysenko I O et al Usp. Fiz. Met. 18 (4) 295 (2017)
  47. Erofeev V I, Leontieva A V, Malkhanov A O IOP Conf. Ser.: Mater. Sci. Eng. 208 012017 (2017)
  48. Malashenko V V Tech. Phys. Lett. 43 (9) 794 (2017)
  49. Kharchenko D O, Kharchenko V O et al Physica A: Statistical Mechanics and its Applications 486 497 (2017)
  50. Kharchenko D O, Kharchenko V O, Bashtova A I Eur. Phys. J. B 89 (5) (2016)
  51. Ovcharenko Yu  M, Kokhan S  V et al Metallofiz. Noveishie Tekhnol. 38 (10) 1303 (2016)
  52. Kharchenko D O, Kharchenko V O, Bashtova A I Ukr. J. Phys. 61 (3) 265 (2016)
  53. Kharchenko D O, Kharchenko V O Radiation Effects and Defects in Solids 171 (11-12) 819 (2016)
  54. Koç H, Eser E Mod. Phys. Lett. B 30 (04) 1650026 (2016)
  55. Zmievskaya G I, Bondareva A L J. Surf. Investig. 10 (4) 802 (2016)
  56. Shekoyan A V J. Contemp. Phys. 50 (2) 182 (2015)
  57. Maksimov L A, Mikhailova Yu V Tech. Phys. 60 (2) 166 (2015)
  58. Zimin S P, Gorlachev E S et al Semicond. Sci. Technol. 30 (3) 035017 (2015)
  59. Shtremel’ M A Russ. Metall. 2014 (4) 251 (2014)
  60. Tetyorkin V V Semicond. Phys. Quantum Electron. Optoelectron. 17 (3) 291 (2014)
  61. Konakova R V, Kolomys A F et al Semiconductors 48 (5) 621 (2014)
  62. Shelud’ko V E, Paustovskii A V et al Surf. Engin. Appl.Electrochem. 50 (5) 419 (2014)
  63. Kharchenko D O, Kharchenko V O, Bashtova A I Radiation Effects and Defects in Solids 169 (5) 418 (2014)
  64. Bondareva A L, Zmievskaya G I J. Surf. Investig. 8 (3) 588 (2014)
  65. Kharchenko V O, Kharchenko D O Phys. Rev. E 89 (4) (2014)
  66. Kikin P Yu, Pchelintsev A I, Rusin E E Met Sci Heat Treat 55 (7-8) 368 (2013)
  67. Kharchenko D O, Kharchenko V O, Bashtova A I Ukr. J. Phys. 58 (10) 993 (2013)
  68. Kharchenko D O, Kharchenko V O et al Eur. Phys. J. B 86 (4) (2013)
  69. Kikin P Yu, Pchelintsev A I et al Met Sci Heat Treat 54 (7-8) 398 (2012)
  70. Shcheblanov N S, Silaeva E P, Itina T E Applied Surface Science 258 (23) 9417 (2012)
  71. Kharchenko V O, Kharchenko D O Eur. Phys. J. B 85 (11) (2012)
  72. Zuev D A, Novodvorsky O A et al Appl. Phys. B 105 (3) 545 (2011)
  73. Mirzade F Kh Physica B: Condensed Matter 406 (24) 4644 (2011)
  74. Mirzade F Kh Physica B: Condensed Matter 406 (1) 119 (2011)
  75. Mirzade F Kh Physica Status Solidi (b) 246 (7) 1597 (2009)
  76. Mirzade F Kh Journal of Applied Physics 103 (4) (2008)
  77. Pidluzhna A Yu, Grygorchak I I et al Journal of Non-Crystalline Solids 354 (35-39) 4433 (2008)
  78. Mirzade F Kh J. Surf. Investig. 2 (4) 669 (2008)
  79. Mirzade F Kh Physica Status Solidi (b) 245 (4) 681 (2008)
  80. Mirzade F Kh J. Phys.: Condens. Matter 20 (27) 275202 (2008)
  81. Baidullaeva A, Veleshchuk V P et al Semiconductors 42 (3) 281 (2008)
  82. Mirzade F Kh Physica Status Solidi (b) 244 (2) 529 (2007)
  83. Mirzade F Kh, Shelepin L A Acoust. Phys. 53 (6) 676 (2007)
  84. Vasil’ev S V, Ivanov A Yu, Liopo V A J Eng Phys Thermophy 80 (5) 857 (2007)
  85. Mirzade F Kh J. Phys. D: Appl. Phys. 39 (7) 1437 (2006)
  86. Mirzade F Kh Physica B: Condensed Matter 371 (1) 163 (2006)
  87. Mirzade F Kh Semiconductors 40 (3) 262 (2006)
  88. Mirzade F Kh Journal of Applied Physics 97 (8) (2005)
  89. Mirzade F Kh Tech. Phys. 50 (8) 993 (2005)
  90. Mirzade F Kh Physica Status Solidi (b) 242 (15) 3099 (2005)
  91. Mirzade F Kh Physica B: Condensed Matter 368 (1-4) 231 (2005)
  92. Fradkov A L Uspekhi Fizicheskikh Nauk 175 (2) 113 (2005)
  93. Vintsents S V, Zaitseva A V, Plotnikov G S Semiconductors 37 (2) 124 (2003)
  94. Mirzoev F Kh, Shelepin L A Journal of Russian Laser Research 23 (5) 409 (2002)
  95. Mirzoev F Tech. Phys. 47 (10) 1258 (2002)
  96. Golubev V S, Mirzoev F Kh Tech. Phys. Lett. 27 (11) 910 (2001)
  97. Golubev V S, Mirzoev F Kh Tech. Phys. Lett. 27 (10) 878 (2001)
  98. Mirzoev F Kh, Shelepin L A Journal of Russian Laser Research 22 (3) 268 (2001)
  99. Mirzoev F, Shelepin L A Tech. Phys. 46 (8) 952 (2001)
  100. Paustovskii A V, Gubin Yu V, Kunitskii Yu A Mater Sci 36 (2) 274 (2000)
  101. Shul’pina I L, Zelenina N K, Matveev O A Phys. Solid State 42 (3) 561 (2000)
  102. Konstantino E, Altus E Surface Engineering 15 (2) 126 (1999)
  103. Mirzoev F, Shelepin L A Tech. Phys. Lett. 25 (8) 673 (1999)
  104. Mirzoev F Kh, Shelepin L A J Russ Laser Res 19 (6) 528 (1999)
  105. Mirzoev F, Shelepin L A J Russ Laser Res 20 (5) 404 (1999)
  106. Mirzoev F Kh Tech. Phys. 43 (8) 943 (1998)
  107. Shul’pina I L, Zelenina N K, Matveev O A Phys. Solid State 40 (1) 59 (1998)
  108. Tamulevicius S, Pozela I, Jankauskas J J. Phys. D: Appl. Phys. 31 (21) 2991 (1998)
  109. Banishev A F, Balykina E A Quantum Electron. 27 (6) 542 (1997)
  110. Reshetnyak S A, Shelepin L A, Scheglov V A J Russ Laser Res 18 (3) 199 (1997)
  111. Vintsents S V, Dmitriev S G, Spiridonov K I Phys. Solid State 39 (12) 1985 (1997)
  112. Novodvorskii O A, Sagdeev R Ya, Khramova O D Quantum Electron. 27 (8) 686 (1997)
  113. Mirzoev F Kh, Shelepin L A J Russ Laser Res 18 (1) 45 (1997)
  114. Osipov G V, Pikovsky A S et al Phys. Rev. E 55 (3) 2353 (1997)
© Успехи физических наук, 1918–2026
Электронная почта: ufn@ufn.ru Телефоны и адреса редакции О журнале Пользовательское соглашение