RSS-ленты
РусскийEnglish
Выпуск 5, 2026
Том год страница
Выпуски Авторы PACS Подписчикам Для авторов

Выпуски

 / 

1985

 / 

Декабрь

  

Обзоры актуальных проблем


Воздействие мощного лазерного излучения на поверхность полупроводников и металлов: нелинейно-оптические эффекты и нелинейно-оптическая диагностика

, ,  а,
а Московский государственный университет имени М.В. Ломоносова, Физический факультет, Ленинские горы 1 стр. 2, Москва, 119991, Российская Федерация

СОДЕРЖАНИЕ
Введение
1. Поглощение и релаксация энергии лазерного импульса. Нагрев решетки
1.1. Импульсное лазерное возбуждение и релаксация электронной подсистемы
1.2. Электрон-фононная релаксация и нагрев решетки
1.3. Импульсный лазерный отжиг поверхности полупроводников. Тепловой и плазменный механизмы отжига
2 Линейные и нелинейные оптические методы регистрации состояния и лазерно- индуцированных фазовых превращений поверхности конденсированных сред
2.1. Новые данные линейной оптической спектроскопии о быстрых лазерно- индуцированных процессах на поверхности полупроводников и металлов
2.2. Нелинейно-оптическая диагностика лазерно-индуцированных фазовых переходов на поверхности полупроводника; генерация оптических гармоник и комбинационных частот при отражении
2.3. Исследование состояния и быстрых фазовых превращений поверхности полупроводников с помощью генерации оптических гармоник и суммарных частот при отражении
3. Нелинейно-оптические процессы, обусловленные модуляцией рельефа и температуры поверхности конденсированных сред
3.1. Лазерно-индуцированные неустойчивости рельефа поверхности и проблема образования упорядоченных поверхностных структур
3.2. Дифракция световых волн на пространственно-временных модуляциях рельефа поверхности
3.3. Механизмы обратной связи в режиме, предшествующем плавлению. Генерация связанных поверхностных электромагнитных и акустических волн
3.4. Генерация капиллярных волн и волн испарения при действии лазерного излучения на жидкие металлы, полупроводники и диэлектрики
3.5. Зависимость интерференционной неустойчивости лазерного испарения от диэлектрической проницаемости среды
3.6. Эксперименты по возбуждению поверхностных решеток и теория лазерно- индуцированных неустойчивостей
Заключение
Список литературы

Текст pdf (4,9 Мб)
English fulltext is available at DOI: 10.1070/PU1985v028n12ABEH003986
PACS: 61.80.Ba, 68.47.De, 68.47.Fg, 64.70.Kb, 68.35.Rh, 78.35.+c (все)
DOI: 10.3367/UFNr.0147.198512b.0675
URL: https://ufn.ru/ru/articles/1985/12/b/
Цитата: Ахманов С А, Емельянов В И, Коротеев Н И, Семиногов В Н "Воздействие мощного лазерного излучения на поверхность полупроводников и металлов: нелинейно-оптические эффекты и нелинейно-оптическая диагностика" УФН 147 675–745 (1985)
BibTexBibNote ® (generic)BibNote ® (RIS)MedlineRefWorks

English citation: Akhmanov S A, Emel’yanov V I, Koroteev N I, Seminogov V N “Interaction of powerful laser radiation with the surfaces of semiconductors and metals: nonlinear optical effects and nonlinear optical diagnosticsSov. Phys. Usp. 28 1084–1124 (1985); DOI: 10.1070/PU1985v028n12ABEH003986

Статьи, ссылающиеся на эту (273) ↓ Похожие статьи (20)

  1. Fan M, Zhang Sh et al Optics & Laser Technology 203 115522 (2026)
  2. Pakholchuk P P, Shuleiko D V et al jour 16 (6) 908 (2026)
  3. Chen Zh, Jiang L et al Laser & Photonics Reviews 19 (1) (2025)
  4. 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
  5. Kostrina A A, Tcibulnikova A V et al jour 25 (6) 1033 (2025)
  6. Ince F D, Özel T Surface and Coatings Technology 498 131818 (2025)
  7. Cao S-Q, Dai H et al Optics & Laser Technology 181 112035 (2025)
  8. Balachninaitė O, Gaižauskas E et al Sci Rep 15 (1) (2025)
  9. Kudryashov S I, Smirnov N A et al Jetp Lett. 121 (9) 671 (2025)
  10. Gulina Y S, Rupasov A E et al Jetp Lett. 119 (9) 652 (2024)
  11. Stupak M F, Mikhailov N N et al Tech. Phys. 69 (2) 404 (2024)
  12. Sotnikova G Yu, Ankudinov A V et al Ceramics 7 (4) 1695 (2024)
  13. Gulina Yu S, Rupasov A E et al Pisʹma v žurnal êksperimentalʹnoj i teoretičeskoj fiziki 119 (9-10) 638 (2024)
  14. Mezera M, Florian C et al Springer Series in Optical Sciences Vol. Ultrafast Laser NanostructuringCreation of Material Functions by Nanostructuring239 Chapter 23 (2023) p. 827
  15. Bukelis T, Gaižauskas E et al Surfaces and Interfaces 38 102869 (2023)
  16. Kudryashov S, Danilov P et al Nanomaterials 13 (1) 192 (2023)
  17. Nikiforov A A, K K D et al Batteries 8 (12) 251 (2022)
  18. Wang M, Zhang N, Chen Sh-Ch Optics & Laser Technology 151 108058 (2022)
  19. Teubner U, Andreev A et al J. Phys. Commun. 6 (11) 115003 (2022)
  20. Schröder N, Nyenhuis F et al Sci Rep 12 (1) (2022)
  21. Kulchitskii N A J. Commun. Technol. Electron. 67 (3) 324 (2022)
  22. Ryabin A A, Pelegov D V J Raman Spectroscopy 53 (9) 1625 (2022)
  23. Vlasenko O I Optoelektron. napìvprovìd. teh. 57 43 (2022)
  24. Khomich Yu V, Mikolutskiy S I Acta Astronautica 194 442 (2022)
  25. Kudryashov S I, Pflug T et al Opt. Mater. Express 11 (1) 1 (2021)
  26. Louchev O A, Wada S J. Opt. Soc. Am. B 38 (4) 1416 (2021)
  27. Bonse J, Kirner S V, Krüger J Handbook of Laser Micro- and Nano-Engineering Chapter 17-2 (2021) p. 1
  28. Barmina E V, Zhil’nikova M I et al Phys. Wave Phen. 29 (3) 229 (2021)
  29. Kudryashov S I, Danilov P A et al Applied Surface Science 568 150877 (2021)
  30. Mikolutsky S I, Khomich Yu V Phys. Metals Metallogr. 122 (2) 148 (2021)
  31. Bonse J, Kirner S V, Krüger J Handbook of Laser Micro- and Nano-Engineering Chapter 17 (2021) p. 879
  32. Dvoretskii S A, Stupak M F et al Optoelectron.Instrument.Proc. 57 (5) 458 (2021)
  33. Gurevich E L, Levy Y, Bulgakova N M Nanomaterials 10 (9) 1836 (2020)
  34. Kochuev D A, Khor’kov K S et al Tech. Phys. Lett. 46 (8) 779 (2020)
  35. Yolkin V N, Malinskiy T V et al Inorg. Mater. Appl. Res. 11 (3) 598 (2020)
  36. Kozyukhin S, Smayev M et al Physica Status Solidi (b) 257 (11) (2020)
  37. Kudryashov S I, Nastulyavichus A A et al Applied Surface Science 519 146204 (2020)
  38. Kuz’mina A S, Kazantsev A V, Kuz’min M P Materials Science in Semiconductor Processing 117 105175 (2020)
  39. Bonse J, Kirner S V, Krüger J Handbook of Laser Micro- and Nano-Engineering Chapter 17-1 (2020) p. 1
  40. Stupak M F, Mikhailov N N et al Phys. Solid State 62 (2) 252 (2020)
  41. Kudryashov S I, Levchenko A O et al Jetp Lett. 112 (9) 533 (2020)
  42. Khomich V, Yamshchikov V, Mikolutskiy S Springer Proceedings in Materials Vol. Advanced MaterialsFormation of Surface Micro and Nanostructures When Exposed to Laser UV and VUV Radiation of Nanosecond Duration6 Chapter 5 (2020) p. 49
  43. Kuz’mina A S, Lotin A A et al Journal of Crystal Growth 535 125506 (2020)
  44. Bonse J Nanomaterials 10 (10) 1950 (2020)
  45. Bonse J, Gräf S Laser & Photonics Reviews 14 (10) (2020)
  46. Ionin A A, Kudryashov S I, Makarov S V Semiconductors 53 (16) 2094 (2019)
  47. Kudryashov S I, Saraeva I N et al Applied Surface Science 471 23 (2019)
  48. Ruffino F, Grimaldi M G Nanomaterials 9 (8) 1133 (2019)
  49. Kudryashov S I, Seleznev L V et al Jetp Lett. 109 (3) 157 (2019)
  50. Sredin V G, Voitsekhovskii A V et al Russ Phys J 62 (6) 1062 (2019)
  51. Kozyukhin S, Lazarenko P et al Optics & Laser Technology 113 87 (2019)
  52. Kudryashov S I, Levchenko A O et al Applied Physics Letters 115 (7) (2019)
  53. Stupak M F, Mikhailov N N et al Optoelectron.Instrument.Proc. 55 (5) 447 (2019)
  54. Apostolova T, Obreshkov B D et al Applied Surface Science 427 334 (2018)
  55. Yakovlev S A, Ankudinov A V et al Semiconductors 52 (6) 809 (2018)
  56. Kunz C, Müller F A, Gräf S Materials 11 (5) 789 (2018)
  57. Bialuschewski D, Hoppius Ja S et al Adv Eng Mater 20 (9) (2018)
  58. Sarychev V, Nevskii S et al Mater. Res. Express 6 (2) 026540 (2018)
  59. Neimash V B, Goushcha A O et al Journal of Nanomaterials 2018 1 (2018)
  60. Warkentin W, Mund J et al Phys. Rev. B 98 (7) (2018)
  61. Zhuravlev V M, Zolotovskii I O et al Phys. Solid State 59 (12) 2313 (2017)
  62. Veiko V, Karlagina Yu et al Optics and Lasers in Engineering 96 63 (2017)
  63. Ionin A A, Kudryashov S I et al Opt. Mater. Express 7 (8) 2793 (2017)
  64. Maragkaki S, Derrien Thibault J -Y et al Applied Surface Science 417 88 (2017)
  65. Neimash V B Semicond. Phys. Quantum Electron. Optoelectron. 20 (4) 396 (2017)
  66. Ionin A A, Kudryashov S I, Samokhin A A Успехи физических наук 187 (2) 159 (2017) [Ionin A A, Kudryashov S I, Samokhin A A Phys.-Usp. 60 (2) 149 (2017)]
  67. Louchev O A, Wada S, Panchenko V Ya Phys. Rev. Applied 8 (2) (2017)
  68. Semchuk O Yu, Havryliuk O O Poverhn. 9(24) 118 (2017)
  69. Havryliuk O O, Semchuk O Yu Ukr. J. Phys. 62 (1) 20 (2017)
  70. (Laser-based Micro- and Nanoprocessing XI) Vol. Laser-based Micro- and Nanoprocessing XI Applications of laser-induced periodic surface structures (LIPSS) UdoKlotzbachKunihikoWashioRainerKlingJörnBonseSabrina V.KirnerSandraHöhmNadjaEpperleinDirkSpaltmannArkadiRosenfeldJörgKrüger10092 (2017) p. 100920N
  71. Bonse J, Hohm S et al IEEE J. Select. Topics Quantum Electron. 23 (3) (2017)
  72. Wang L, Chen Q-D et al Light Sci Appl 6 (12) e17112 (2017)
  73. Gurevich E L, Levy Y et al Phys. Rev. B 95 (5) (2017)
  74. Neimash V B V B, Melnyk V et al Ukr. J. Phys. 62 (9) 806 (2017)
  75. Makin V S, Pestov Yu I, Makin R S J. Phys.: Conf. Ser. 737 012024 (2016)
  76. Semenov A L J. Exp. Theor. Phys. 122 (2) 277 (2016)
  77. Elshin A S, Abdullaev D A, Mishina E D Phys. Solid State 58 (6) 1154 (2016)
  78. Bezhanov S G, Danilov P N et al Laser Phys. Lett. 13 (3) 035302 (2016)
  79. Surface Physics 0 (2016) p. 289
  80. Gurevich E L Applied Surface Science 374 56 (2016)
  81. Ionin A A, Kudryashov S I et al J. Exp. Theor. Phys. 121 (5) 737 (2015)
  82. Danilov P A, Ionin A A et al J. Exp. Theor. Phys. 120 (6) 946 (2015)
  83. Semenov A L J. Exp. Theor. Phys. 120 (2) 268 (2015)
  84. Ionin A A, Kudryashov S I et al Jetp Lett. 101 (5) 350 (2015)
  85. Khomich V Yu, Shmakov V A Успехи физических наук 185 (5) 489 (2015) [Khomich V Yu, Shmakov V A Phys.-Usp. 58 (5) 455 (2015)]
  86. Krasik Ya E, Leopold J G Physics of Plasmas 22 (8) (2015)
  87. Kudryashov S I, Makarov S V et al Opt. Lett. 40 (21) 4967 (2015)
  88. Yavtushenko I O, Yavtushenko M S et al Tech. Phys. Lett. 41 (8) 743 (2015)
  89. Nathala Ch S R, Ajami A et al Opt. Express 23 (5) 5915 (2015)
  90. Inogamov N A, Zhakhovsky V V et al Engineering Failure Analysis 47 328 (2015)
  91. Ionin A A, Kudryashov S I et al J. Opt. Technol. 81 (5) 262 (2014)
  92. Valizadeh R, Malyshev O B et al Applied Physics Letters 105 (23) (2014)
  93. Dostovalov A V, Korolkov V P et al Quantum Electron. 44 (4) 330 (2014)
  94. Ionin A A, Kudryashov S I et al Appl. Phys. A 116 (3) 1133 (2014)
  95. Gurevich E L, Gurevich S V Applied Surface Science 302 118 (2014)
  96. Grechnikov A, Nikiforov S et al Anal Bioanal Chem 406 (13) 3019 (2014)
  97. Inogamov N A, Zhakhovsky V V et al J. Phys.: Conf. Ser. 510 012041 (2014)
  98. Vlasenko N A, Oleksenko P F et al Semiconductors 47 (8) 1116 (2013)
  99. Ionin A A, Klimachev Y M et al Appl. Phys. B 111 (3) 419 (2013)
  100. Gurevich E L Applied Surface Science 278 52 (2013)
  101. Vorobyev A Y, Guo Ch Laser & Photonics Reviews 7 (3) 385 (2013)
  102. Makin V S, Makin R S Opt. Spectrosc. 115 (4) 591 (2013)
  103. Ionin A A, Kudryashov S I et al Laser Phys. Lett. 10 (5) 056004 (2013)
  104. Ionin A A, Kudryashov S I et al Jetp Lett. 97 (3) 121 (2013)
  105. Gubko M A, Ionin A A et al Jetp Lett. 97 (10) 599 (2013)
  106. Ionin A A, Kudryashov S I et al Appl. Phys. A 107 (2) 301 (2012)
  107. Bratashov D N, Klimova S A et al Tech. Phys. Lett. 38 (6) 572 (2012)
  108. Barmina E V, Stratakis E et al Applied Surface Science 258 (15) 5898 (2012)
  109. Mason D R, Gramotnev D K, Gramotnev G The Journal of Chemical Physics 137 (11) (2012)
  110. Lafrentz M, Brunne D et al Phys. Rev. B 85 (3) (2012)
  111. Makin V S, Makin R S Opt. Spectrosc. 112 (2) 162 (2012)
  112. Emel’yanov V Laser Ablation in Liquids (2012) p. 1
  113. Gusev G A Bull. Lebedev Phys. Inst. 39 (4) 124 (2012)
  114. Tang G, Hourd A C, Abdolvand A Applied Physics Letters 101 (23) (2012)
  115. Grabovski E V, Gritsuk A N et al Plasma Phys. Rep. 37 (11) 955 (2011)
  116. Wei P S Journal of Heat Transfer 133 (3) (2011)
  117. Kumar A, Verma A L Laser Part. Beams 29 (3) 333 (2011)
  118. Golosov E V, Ionin A A et al Phys. Rev. B 83 (11) (2011)
  119. Dubrov A V, Dubrov V D, Zavalov Yu N 2011 11th International Conference on Laser and Fiber-Optical Networks Modeling (LFNM), (2011) p. 1
  120. Gladush G G, Smurov I Springer Series in Materials Science Vol. Physics of Laser Materials ProcessingGeneral Problems of Propagation of Laser Radiation in Gases and Plasma and Physical Processes on the Surface of Condensed Media146 Chapter 1 (2011) p. 1
  121. Bäuerle D Laser Processing and Chemistry Chapter 28 (2011) p. 623
  122. Tang G, Abdolvand A Opt. Mater. Express 1 (8) 1425 (2011)
  123. Zuev D A, Novodvorsky O A et al Appl. Phys. B 105 (3) 545 (2011)
  124. Golosov E V, Ionin A A et al J. Exp. Theor. Phys. 113 (1) 14 (2011)
  125. Golosov E V, Ionin A A et al Appl. Phys. A 104 (2) 701 (2011)
  126. Kumar P, Tripathi V K Applied Physics Letters 99 (2) (2011)
  127. Gurevich E L Phys. Rev. E 83 (3) (2011)
  128. Ionin A A, Kudryashov S I et al Jetp Lett. 94 (4) 266 (2011)
  129. Dolgov L Semicond. Phys. Quantum Electron. Optoelectron. 14 (3) 325 (2011)
  130. Walker B N, Stolee Je A et al J. Phys. Chem. C 114 (11) 4835 (2010)
  131. Chang Han‐Yun, Tsybeskov L Silicon Nanocrystals 1 (2010) p. 105
  132. Lafrentz M, Brunne D et al Phys. Rev. B 82 (23) (2010)
  133. Grigor’ev A I Tech. Phys. 55 (6) 789 (2010)
  134. Medvid’ A, Mychko A et al Optical Materials 32 (8) 836 (2010)
  135. Medvid A, Mychko A et al Phys. Status Solidi (c) 6 (1) 209 (2009)
  136. Semchuk O Yu Semicond. phys. quantum electron. optoelectron. 12 (4) 343 (2009)
  137. Trunov M L, Nagy P M et al Journal of Non-Crystalline Solids 355 (37-42) 1993 (2009)
  138. Kumar B, Soni R K Semicond. Sci. Technol. 24 (9) 095007 (2009)
  139. Walker Bennett N, Razunguzwa T et al Angewandte Chemie 121 (9) 1697 (2009)
  140. Iwase H, Kokubo S et al Opt. Express 17 (6) 4388 (2009)
  141. Walker Bennett N, Razunguzwa T et al Angew Chem Int Ed 48 (9) 1669 (2009)
  142. Golosov E V, Emel’yanov V I et al Jetp Lett. 90 (2) 107 (2009)
  143. Guan Y F, Pedraza A J Nanotechnology 19 (4) 045609 (2008)
  144. Zhakhovskii V V, Inogamov N A, Nishihara K Jetp Lett. 87 (8) 423 (2008)
  145. Liu C S, Tripathi V K, Annou R Physics of Plasmas 15 (6) (2008)
  146. Semchuk O Yu, Grechko L G et al Materials Science and Engineering: C 27 (5-8) 1360 (2007)
  147. Astapchik S A, Bereza N A Phys. Metals Metallogr. 103 (1) 1 (2007)
  148. El-Bandrawy M, Bugayev A A Journal of Laser Applications 19 (3) 155 (2007)
  149. Lee H J Mech Sci Technol 21 (7) 1077 (2007)
  150. Kumar N, Tripathi V K Physics of Plasmas 14 (10) (2007)
  151. Semenov A L J. Exp. Theor. Phys. 104 (1) 68 (2007)
  152. Kumar G, Tripathi V K Journal of Applied Physics 102 (12) (2007)
  153. Bugayev A A, Gupta M C, Payne R Optics and Lasers in Engineering 44 (2) 102 (2006)
  154. Tokarev V N Laser Phys. 16 (9) 1291 (2006)
  155. Zabotnov S V, Golovan’ L A et al Jetp Lett. 83 (2) 69 (2006)
  156. Vol. 2005 Quantum Electronics and Laser Science ConferencePeriodic structures produced by a scanning beam of a femtosecond Ti:sapphire laserG.A.ShafeevJ.DegertN.LascouxE.Freysz2 (2005) p. 913
  157. Kartashov I N, Samokhin A A, Smurov I Yu J. Phys. D: Appl. Phys. 38 (19) 3703 (2005)
  158. Grebenkin K F, Zherebtsov A L, Taranik M V Combust Explos Shock Waves 41 (5) 573 (2005)
  159. Semchuk O Yu, Bila R V et al Fullerenes, Nanotubes and Carbon Nanostructures 13 (sup1) 331 (2005)
  160. Mikheev G M, Zonov R G et al Tech. Phys. Lett. 30 (9) 750 (2004)
  161. Bugayev A A, Gupta M C et al MRS Proc. 850 (2004)
  162. Mikheev G M, Zonov R G et al J. Exp. Theor. Phys. 98 (3) 483 (2004)
  163. Guan Y, Pedraza A J MRS Proc. 818 (2004)
  164. Kashkarov P K, Kamenev B V et al Phys. Solid State 46 (1) 104 (2004)
  165. Csete M, Hild S et al Thin Solid Films 453-454 114 (2004)
  166. Semchuk O Yu, Bila R V et al Applied Surface Science 234 (1-4) 415 (2004)
  167. Artamonov V V, Baidullaeva A et al Phys. Solid State 46 (8) 1533 (2004)
  168. Volkov R V, Golishnikov D M et al Jetp Lett. 77 (9) 473 (2003)
  169. Jain A P, Parashar J Pramana - J Phys 61 (3) 625 (2003)
  170. Chen Ch-Sh, Lue Ju-T et al J. Phys.: Condens. Matter 15 (38) 6537 (2003)
  171. Vintsents S V, Zaitseva A V, Plotnikov G S Semiconductors 37 (2) 124 (2003)
  172. Gramotnev D K, Andres Ch Optical and Quantum Electronics 35 (9) 845 (2003)
  173. Nitikant, Sharma A K Journal of Applied Physics 93 (12) 9968 (2003)
  174. Schaaf P Progress in Materials Science 47 (1) 1 (2002)
  175. Gramotnev D K Optical and Quantum Electronics 33 (3) 253 (2001)
  176. Virt I S, Kuzma M et al Can. J. Phys. 79 (6) 947 (2001)
  177. Nieminen T A, Gramotnev D K Optics Communications 189 (4-6) 175 (2001)
  178. Gramotnev D K, Pile D F P J. Opt. A: Pure Appl. Opt. 3 (2) 103 (2001)
  179. Atkinson R, Kubrakov N F Phys. Rev. B 65 (1) (2001)
  180. Berezhnaja P E, Stupak M F 2000 5th International Conference on Actual Problems of Electronic Instrument Engineering Proceedings. APEIE-2000. Devoted to the 50th Anniversary of Novosibirsk State Technical University. Vol.1 (Cat. No.00EX383), (2000) p. 72
  181. J. Raman Spectrosc. 31 (8-9) 645 (2000)
  182. Grigor’ev A I Tech. Phys. Lett. 26 (11) 977 (2000)
  183. Chuan Sh L, Tripathi V K IEEE Trans. Plasma Sci. 28 (2) 353 (2000)
  184. Libenson M N, Shiryaev V A Tech. Phys. 45 (3) 290 (2000)
  185. Magunov A N Instrum Exp Tech 43 (2) 149 (2000)
  186. Parashar J, Bharuthram R Phys. Scr. 60 (6) 562 (1999)
  187. Tokarev V N, Kaplan A F H J. Phys. D: Appl. Phys. 32 (13) 1526 (1999)
  188. Milovzorov D, Suzuki T Applied Physics Letters 75 (26) 4103 (1999)
  189. Landry F, Lieb K -P, Schaaf P Journal of Applied Physics 86 (1) 168 (1999)
  190. Bharuthram R, Sharma A K Journal of Applied Physics 86 (11) 6181 (1999)
  191. Bharuthram R, Tripathi V K Physics Letters A 259 (3-4) 276 (1999)
  192. Petrenko A D Phys. Solid State 41 (4) 591 (1999)
  193. Stevens M A, Weir B A et al Synthetic Metals 101 (1-3) 234 (1999)
  194. Semenov A L J. Exp. Theor. Phys. 89 (6) 1168 (1999)
  195. Semenov A L Phys. Solid State 40 (11) 1915 (1998)
  196. Metev S M, Veiko V P Springer Series in Materials Science Vol. Laser-Assisted MicrotechnologyLocal Laser- Induced Heat Treatment19 Chapter 4 (1998) p. 100
  197. Ang L K, Lau Y Y et al Journal of Applied Physics 83 (8) 4466 (1998)
  198. Metev S M, Veiko V P Springer Series in Materials Science Vol. Laser-Assisted MicrotechnologyLocal Laser-Induced Heat Treatment19 Chapter 4 (1998) p. 100
  199. Zabolotskii A A Phys. Rev. A 57 (4) 2958 (1998)
  200. Kuzyakhmetov G G, Bobkov A F et al Tech. Phys. Lett. 24 (1) 30 (1998)
  201. Liu C S, Tripathi V K IEEE J. Quantum Electron. 34 (8) 1503 (1998)
  202. Balandin V Yu, Nink T, Bostanjoglo O Journal of Applied Physics 84 (11) 6355 (1998)
  203. Balandin V Yu, Gernert U et al Journal of Applied Physics 81 (6) 2835 (1997)
  204. Seminogov V N, Panchenko V Ya, Khudobenko A I J. Exp. Theor. Phys. 84 (1) 96 (1997)
  205. Novodvorskii O A, Sagdeev R Ya, Khramova O D Quantum Electron. 27 (8) 686 (1997)
  206. Mirzoev F Kh, Shelepin L A J Russ Laser Res 18 (1) 45 (1997)
  207. Mazur E NATO ASI Series Vol. Spectroscopy and Dynamics of Collective Excitations in SolidsInteraction of Ultrashort Laser Pulses with Solids356 Chapter 14 (1997) p. 417
  208. Balanyuk V V, Dvoretsky S A et al Materials Science and Engineering: B 44 (1-3) 168 (1997)
  209. Dyer P E, Farley R J et al Laser Ablation (1996) p. 537
  210. Bostanjoglo O, Nink T Journal of Applied Physics 79 (11) 8725 (1996)
  211. Bukharaev A A, Janduganov V M et al Applied Surface Science 103 (1) 49 (1996)
  212. Bukharaev A A Успехи физических наук 166 (2) 210 (1996)
  213. Mirzoev F Kh, Panchenko V Ya, Shelepin L A Успехи физических наук 166 (1) 3 (1996)
  214. Dyer P E, Farley R J et al Applied Surface Science 96-98 537 (1996)
  215. Valyavko V V, Osipov V P, Mozgo A A J Appl Spectrosc 62 (1) 94 (1995)
  216. Mihaychuk J G, Bloch J et al Opt. Lett. 20 (20) 2063 (1995)
  217. Glezer E N, Siegal Y et al Phys. Rev. B 51 (15) 9589 (1995)
  218. Golubkov A A, Makarov V A Успехи физических наук 165 (3) 339 (1995)
  219. Tokarev V N, Lunney J G et al Journal of Applied Physics 78 (2) 1241 (1995)
  220. Glezer E N, Huang L et al MRS Proc. 397 (1995)
  221. Tokarev V N, Marine W et al Journal of Applied Physics 77 (9) 4714 (1995)
  222. REIDER G A, HEINZ T F Photonic Probes of Surfaces (1995) p. 413
  223. Tokarev V N, Konov V I Journal of Applied Physics 76 (2) 800 (1994)
  224. Luk’ Ya B, Bityurin N et al Excimer Lasers Chapter 5 (1994) p. 59
  225. Bostanjoglo O, Niedrig R, Wedel B Journal of Applied Physics 76 (5) 3045 (1994)
  226. Siegal Y, Glezer E N, Mazur E Femtosecond Chemistry 1 (1994) p. 581
  227. Kravetsky I V, Kulyuk L L Surface & Interface Analysis 22 (1-12) 605 (1994)
  228. Gramotnev D K, Vyukov M L Solid State Communications 85 (3) 249 (1993)
  229. Dar’jushkin A E, Gramotnev D K, Vyukov M L Optics Communications 97 (1-2) 47 (1993)
  230. Dyer P E, Farley R J Journal of Applied Physics 74 (2) 1442 (1993)
  231. Efremov G F, Mourokh L G, Smirnov A Yu Physics Letters A 175 (2) 89 (1993)
  232. Two-Dimensional Crystals (1992) p. 381
  233. Schaich W L, Mendoza B S Phys. Rev. B 45 (24) 14279 (1992)
  234. Hollering R W J Optics Communications 90 (1-3) 147 (1992)
  235. Karabutov A A, Kudinov I A et al Springer Series in Optical Sciences Vol. Photoacoustic and Photothermal Phenomena IIIOptoacoustic Investigation of IR Absorption by Diffraction Gratings69 Chapter 87 (1992) p. 334
  236. Semjonow A Je, Lenz K, Lau A J. Phys.: Condens. Matter 4 (7) 1699 (1992)
  237. Nánai L, Vajtai R et al Superlattices and Microstructures 11 (4) 435 (1992)
  238. Je S A, Lau A et al Journal of Molecular Structure 267 155 (1992)
  239. Lee T D, Lee H W et al Journal of Applied Physics 71 (9) 4208 (1992)
  240. Vladimirov V V, Gorshkov V N J Eng Phys Thermophys 62 (5) 489 (1992)
  241. Emel’yanov V I, Kashkarov P K Appl. Phys. A 55 (2) 161 (1992)
  242. van Driel H M, Dworschak K Phys. Rev. Lett. 69 (24) 3487 (1992)
  243. Janz S, Pedersen K, van Driel H M Phys. Rev. B 44 (8) 3943 (1991)
  244. Dworschak K, Sipe J E, van Driel H M Laser Optics of Condensed Matter Chapter 18 (1991) p. 111
  245. Wiedeman L, Helvajian H Journal of Applied Physics 70 (8) 4513 (1991)
  246. HEINZ T F Modern Problems in Condensed Matter Sciences Vol. Nonlinear Surface Electromagnetic PhenomenaSecond-Order Nonlinear Optical Effects at Surfaces and Interfaces29 (1991) p. 353
  247. Materials Science Monographs Vol. Applications of Diamond Films and Related Materials - Proceedings of the First International Conference on the Applications of Diamond Films and Related Materials – ADC '91 Auburn, Alabama, U.S.A., August 17–22, 1991Light-Induced Polishing of Diamond Films73 (1991) p. 249
  248. BONCH-BRUEVICH A M, LIBENSON M N Modern Problems in Condensed Matter Sciences Vol. Nonlinear Surface Electromagnetic PhenomenaLaser-Induced Surface Polaritons and Optical Breakdown29 (1991) p. 561
  249. Gusakov G M Radiation Effects and Defects in Solids 116 (1-2) 159 (1991)
  250. Brodsky A M, Urbakh M I Progress in Surface Science 33 (2) 91 (1990)
  251. Balaniuk V V, Krasnov V F et al Optics Communications 79 (5) 333 (1990)
  252. Golubkov A A, Makarov V A Journal of Modern Optics 37 (9) 1531 (1990)
  253. Furzikov N P Applied Physics Letters 56 (17) 1638 (1990)
  254. Müller H, Wetzig K et al J Mater Sci 25 (10) 4440 (1990)
  255. Schulz H, Bialkowski J et al Springer Series in Chemical Physics Vol. Ultrafast Phenomena VIIFemtosecond Laser-Induced Structural Changes in Gallium Arsenide53 Chapter 111 (1990) p. 365
  256. Govorkov S V, Emel’yanov V I et al J. Opt. Soc. Am. B 6 (6) 1117 (1989)
  257. Ursu I, Prokhorov A M et al Opt. Lett. 14 (16) 853 (1989)
  258. Strekalov V N Soviet Physics Journal 32 (7) 503 (1989)
  259. Heinz T F, Reider G A TrAC Trends in Analytical Chemistry 8 (6) 235 (1989)
  260. Helvajian H, Welle R The Journal of Chemical Physics 91 (4) 2616 (1989)
  261. Emel’yanov V I Nonlinear Waves 1 Research Reports in Physics Chapter 14 (1989) p. 203
  262. Emel’yanov V I, Konov V I et al J. Opt. Soc. Am. B 6 (1) 104 (1989)
  263. Preston J S, van Driel H M, Sipe J E Phys. Rev. B 40 (6) 3942 (1989)
  264. Akhmanov S A, Govorkov S V et al Laser Spectroscopy (1989) p. 319
  265. Robert B D, Sipe J E Phys. Rev. A 38 (10) 5217 (1988)
  266. Anisimov V N, Baranov V Yu et al IEEE J. Quantum Electron. 24 (4) 675 (1988)
  267. Agranat M B, Anisimov S I, Makshantsev B I Appl. Phys. B 47 (3) 209 (1988)
  268. Richmond G L, Robinson J M, Shannon V L Progress in Surface Science 28 (1) 1 (1988)
  269. Berman G P, Frolov G I et al Solid State Communications 67 (12) 1203 (1988)
  270. Bonch-Bruevich A M, Libenson M N, Makin V S Успехи физических наук 155 (8) 719 (1988)
  271. Emel’yanov V I, Seminogov V N, Sokolov V I Sov. J. Quantum Electron. 17 (1) 17 (1987)
  272. Akhmanov S A, Vysloukh V A, Chirkin A S Успехи физических наук 149 (07) 449 (1986)
  273. Akhmanov S A Успехи физических наук 149 (07) 361 (1986)
© Успехи физических наук, 1918–2026
Электронная почта: ufn@ufn.ru Телефоны и адреса редакции О журнале Пользовательское соглашение