RSS feeds
РусскийEnglish
Issue 4, 2024
Volume year page
Issues Authors PACS Subscription For authors

Issues

 / 

2002

 / 

March

  

Reviews of topical problems


Selected problems of laser ablation theory

 a,  b
a L.D. Landau Institute for Theoretical Physics, Russian Academy of Sciences, Chernogolovka, Moscow Region, Russian Federation
b Prokhorov General Physics Institute of the Russian Academy of Sciences, ul. Vavilova 38, Moscow, 119991, Russian Federation

Physical mechanisms and theoretical models of laser ablation are discussed. For various mechanisms, typical associated phenomena are qualitatively regarded and methods for studying them quantitatively are considered. Calculated results relevant to ablation kinetics for a number of substances are presented and compared with experimental data.

Fulltext pdf (973 KB)
Fulltext is also available at DOI: 10.1070/PU2002v045n03ABEH000966
PACS: 42.55.Ah, 79.20.Ds, 81.15.Fg (all)
DOI: 10.1070/PU2002v045n03ABEH000966
URL: https://ufn.ru/en/articles/2002/3/b/
000176867200002
Citation: Anisimov S I, Luk’yanchuk B S "Selected problems of laser ablation theory" Phys. Usp. 45 293–324 (2002)
BibTexBibNote ® (generic)BibNote ® (RIS)MedlineRefWorks

Оригинал: Анисимов С И, Лукьянчук Б С «Избранные задачи теории лазерной абляции» УФН 172 301–333 (2002); DOI: 10.3367/UFNr.0172.200203b.0301

References (188) Cited by (269) ↓ Similar articles (20)

  1. Ming W, Hu Sh et al Optics & Laser Technology 174 110618 (2024)
  2. Vasiliev M M, Shukhov Yu G et al Applied Surface Science 653 159392 (2024)
  3. Krása J, Burian Tomáš et al 9 (1) (2024)
  4. Thomas R, Westphal E et al Micromachines 15 491 (2024)
  5. Dobrotvorskiy S, Basova Y et al Lecture Notes In Networks And Systems Vol. International Conference on Reliable Systems Engineering (ICoRSE) - 2022Creation of a Superhydrophilic Surface with Anti-icing Properties for X18H10T Stainless Steel Using a Nanosecond Laser534 Chapter 17 (2023) p. 172
  6. (SHOCK COMPRESSION OF CONDENSED MATTER - 2022: Proceedings of the Conference of the American Physical Society Topical Group on Shock Compression of Condensed Matter) Vol. SHOCK COMPRESSION OF CONDENSED MATTER - 2022: Proceedings of the Conference of the American Physical Society Topical Group on Shock Compression of Condensed MatterA method of determining ablation depth from free surface velocities in laser induced ablation experimentsSophieParsonsMichaelArmstrongRossTurnerHarryRadouskyJavierGarayFarhatBeg2844 (2023) p. 280005
  7. Andrienko D, Boyd I D et al AIAA SCITECH 2023 Forum, (2023)
  8. Cong C, Fang R et al Springer Series In Optical Sciences Vol. Ultrafast Laser NanostructuringImaging Dynamics of Femtosecond Laser-Induced Surface Nanostructuring239 Chapter 9 (2023) p. 355
  9. Zhang Yu, Wu D et al Int. J. Extrem. Manuf. 5 042012 (2023)
  10. Song Sh, Zhang P et al Opt. Lett. 48 4570 (2023)
  11. Liu Ya, Claus S et al International Journal Of Heat And Mass Transfer 204 123843 (2023)
  12. Struleva E V, Komarov P S et al High Temp 60 S159 (2022)
  13. Zhang Ya, Yu G et al Materials 15 2457 (2022)
  14. Suwardy J, Akhir M P M et al Micromachines 13 2012 (2022)
  15. Uehlein M, Weber S T, Rethfeld B Nanomaterials 12 1655 (2022)
  16. Hoffmann V, Hoffmann L et al International Journal Of Hydrogen Energy 47 20729 (2022)
  17. Sokolovskaya O I, Golovan L A et al Computational Biophysics and Nanobiophotonics, (2022) p. 44
  18. Irimiciuc Ș-A, Chertopalov S et al Materials 15 2769 (2022)
  19. Chumakov A N, Lychkoskyi V V J Appl Spectrosc 88 1169 (2022)
  20. Kovalev O SSRN Journal (2022)
  21. Nakhoul A, Rudenko A et al Advanced Science 9 (21) (2022)
  22. YONETA-OGAWA Koume, UCHIDA Yuki et al Plasma And Fusion Research 17 2405108 (2022)
  23. Chepak-Gizbrekht M V, Knyazeva A G Surfaces And Interfaces 32 102107 (2022)
  24. Hoffmann V, Hoffmann L et al Applied Surface Science 541 148481 (2021)
  25. Polonik M V, Mantsybora A A KEM 887 364 (2021)
  26. Ivanov I A, Dub V S et al Sci Rep 11 (1) (2021)
  27. Chumakov A N, Lychkoskyi V V Ž. Prikl. Spektrosk. (Minsk) 88 900 (2021)
  28. Heya M, Furukawa H et al 129 (23) (2021)
  29. Daido H, Yamada T et al 33 (1) (2021)
  30. Puértolas E, Campos D A et al Food Waste Recovery (2021) p. 219
  31. Struleva E V, Komarov P S, Ashitkov S I High Temp 59 135 (2021)
  32. Vakulov Z, Khakhulin D et al Materials 14 4854 (2021)
  33. Shmeleva L V, Suprun A D et al Springer Proceedings In Physics Vol. Nanomaterials and Nanocomposites, Nanostructure Surfaces, and Their ApplicationsInfluence of Changes in the Phase State of the Surface and External Factors of Laser Irradiation on the Nanocraters Formation263 Chapter 15 (2021) p. 223
  34. Jalil S A, ElKabbash Mohamed et al Applied Surface Science 568 150913 (2021)
  35. Shmeleva L V, Suprun A D et al Springer Proceedings In Physics Vol. Nanomaterials and Nanocomposites, Nanostructure Surfaces, and Their ApplicationsSpecificity of Boundary Conditions for Laser-Stimulated Destructive Surface Treatment Without Melting246 Chapter 23 (2021) p. 289
  36. Kryukov P, Levashov V Yu et al Phys.-Usp. 64 109 (2021)
  37. Khorkov K, Kochuev D et al New Trends in Nonlinear Dynamics Chapter 14 (2020) p. 131
  38. Kravchenko Ya V, Klimentov S M et al Opt Quant Electron 52 (6) (2020)
  39. Bagayev S N, Arakelian S M et al Bull. Russ. Acad. Sci. Phys. 84 1427 (2020)
  40. Shupenev A E, Korshunov I S, Grigoryants A G Semiconductors 54 378 (2020)
  41. Zhukhovitskii D I, Zhakhovsky V V 152 (22) (2020)
  42. Khokhlov V A, Inogamov N A, Zhakhovsky V V J. Phys.: Conf. Ser. 1556 012003 (2020)
  43. (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
  44. Kozadaev K V Journal Of The Belarusian State University. Physics (2) 4 (2020)
  45. Gurevich E L, Levy Y, Bulgakova N M Nanomaterials 10 1836 (2020)
  46. Ablizen R S, Monastyrskiy M A et al Tech. Phys. 65 1905 (2020)
  47. Shupenev A, Krivosheev A, Ponomarenko S 2020 35 (2020)
  48. Rudenko A, Abou-Saleh A et al Acta Materialia 194 93 (2020)
  49. Struleva E V, Komarov P S et al High Temp 58 148 (2020)
  50. Müller D W, Fox T et al Sci Rep 10 (1) (2020)
  51. Fadeev D A, Oladyshkin I V et al 2020 International Conference Laser Optics (ICLO), (2020) p. 1
  52. Dondieu S D, Wlodarczyk K L et al JMMP 4 110 (2020)
  53. Burdonskii I N, Leonov A G et al Quantum Electron. 50 763 (2020)
  54. Sivan Y, Spector M ACS Photonics 7 1271 (2020)
  55. Oparin E S, Khorkov K S et al IOP Conf. Ser.: Mater. Sci. Eng. 525 012040 (2019)
  56. Weber S T, Rethfeld B Phys. Rev. B 99 (17) (2019)
  57. Rudenko A, Mauclair C et al Phys. Rev. B 99 (23) (2019)
  58. Struleva E V, Komarov P S, Ashitkov S I High Temp 57 659 (2019)
  59. Irimiciuc S A, Enescu F et al Symmetry 11 1135 (2019)
  60. Smirnov N, Kudryashov S et al Applied Surface Science (2019)
  61. Kudryashov S I, Samokhvalov A A et al 115 (16) (2019)
  62. Chkalov R, Khorkov K, Kochuev D Materials Today: Proceedings 11 441 (2019)
  63. Khorkov K, Kochuev D et al EPJ Web Conf. 220 02005 (2019)
  64. Anisimov S I, Zhakhovsky V V et al J. Exp. Theor. Phys. 129 757 (2019)
  65. Escobar-Alarcón L, Iturbe-García J L et al International Journal Of Hydrogen Energy 44 1579 (2019)
  66. Yang L, Wei J et al Nanomaterials 9 1789 (2019)
  67. Maslov V, Kladko V, Gudymenko O Materials Letters 257 126672 (2019)
  68. Kudryashov S I, Danilov P A et al Jetp Lett. 109 382 (2019)
  69. He Zh, Chen H et al IEEE Trans. Dielect. Electr. Insul. 26 332 (2019)
  70. Kazeev M N, Kozlov V F et al Plasma Phys. Rep. 45 445 (2019)
  71. Struleva E V, Komarov P S, Ashitkov S I High Temp 57 486 (2019)
  72. Thomas J, Joshi H Ch et al J. Phys. D: Appl. Phys. 52 135201 (2019)
  73. Mkrtychev O, Markovich D M et al EPJ Web Conf. 196 00047 (2019)
  74. Mkrtychev O V, Shemanin V G J. Phys.: Conf. Ser. 1147 012073 (2019)
  75. Lazzini G, Gemini L et al Int. J. Precis. Eng. Manuf. 20 1465 (2019)
  76. Chkalov R V, Khorkov K S et al J. Phys.: Conf. Ser. 1109 012029 (2018)
  77. Mkrtychev O (AIP Conference Proceedings) Vol. 2051 (2018) p. 020200
  78. Suslova A, Hassanein A 30 (4) (2018)
  79. Irimiciuc S, Bulai G et al Appl. Phys. A 124 (9) (2018)
  80. Rethfeld B, Brouwer N et al Laser Applications in Microelectronic and Optoelectronic Manufacturing (LAMOM) XXIII, (2018) p. 24
  81. Privalov V E, Shemanin V G, Mkrtychev O V Meas Tech 61 694 (2018)
  82. Mkrtychev O V (AIP Conference Proceedings) Vol. 2053 (2018) p. 040062
  83. Assis M, Macedo N G et al Part & Part Syst Charact 35 (11) (2018)
  84. Bykovskii N E, Senatskii Yu V Phys. Solid State 60 404 (2018)
  85. Shemanin V G, Mkrtychev O V Tech. Phys. 63 623 (2018)
  86. Kolasinski K W, Gupta M C, Zhigilei L V Encyclopedia of Interfacial Chemistry (2018) p. 594
  87. Ahuir-Torres J I, Arenas M A et al Optics And Lasers In Engineering 103 100 (2018)
  88. Struleva E V, Komarov P S, Ashitkov S I High Temp 56 648 (2018)
  89. Kurbatov E P, Bisikalo D V et al Astron. Rep. 62 483 (2018)
  90. Mincuzzi G, Mishchik K et al Laser Applications in Microelectronic and Optoelectronic Manufacturing (LAMOM) XXIII, (2018) p. 8
  91. Smirnov N A, Kudryashov S I et al Jetp Lett. 108 368 (2018)
  92. Balakhnina I A, Brandt N N et al Laser Phys. Lett. 15 065605 (2018)
  93. Amoruso S Metal Oxide-Based Thin Film Structures (2018) p. 133
  94. Fang R, Vorobyev A Y et al Jpn. J. Appl. Phys. 57 08PF04 (2018)
  95. Sedao X, Lenci M et al Materials 11 2456 (2018)
  96. Romashevskiy S A, Tsygankov P A et al Appl. Phys. A 124 (5) (2018)
  97. Busse F, Kruber S et al 124 (9) (2018)
  98. Weber S, Rethfeld B et al Laser Applications in Microelectronic and Optoelectronic Manufacturing (LAMOM) XXIII, (2018) p. 28
  99. Smirnov A A, Pikulin A, Bityurin N Appl. Phys. A 124 (2) (2018)
  100. Savintsev A P, Gavasheli Yu O J. Phys.: Conf. Ser. 946 012006 (2018)
  101. Kucher N K, Samusenko A A Strength Mater 49 453 (2017)
  102. Barberio M, Antici P Sci Rep 7 (1) (2017)
  103. Havryliuk O O, Semchuk O Yu Ukr. J. Phys. 62 20 (2017)
  104. Rethfeld B, Ivanov D S et al J. Phys. D: Appl. Phys. 50 193001 (2017)
  105. Borghei S M, Bakhtiyari F Acta Phys. Pol. A 131 332 (2017)
  106. Ionin A A, Kudryashov S I, Samokhin A A Uspekhi Fizicheskikh Nauk 187 159 (2017)
  107. Khorkov K S, Zvyagin M Yu et al Bull. Russ. Acad. Sci. Phys. 81 1433 (2017)
  108. Thiry N, Vasile M Advances In Space Research 59 1353 (2017)
  109. Savintsev A P, Gavasheli Yu O Dokl. Phys. 62 454 (2017)
  110. Irimiciuc S A, Gurlui S et al 121 (8) (2017)
  111. Nica P-E, Irimiciuc S A et al Laser Ablation - From Fundamentals to Applications Chapter 1 (2017)
  112. Gurevich E L, Levy Y et al Phys. Rev. B 95 (5) (2017)
  113. Focsa C, Gurlui S et al Applied Surface Science 424 299 (2017)
  114. Oladyshkin I V Jetp Lett. 103 435 (2016)
  115. Kazanskiy N L, Poletayev S D Tech. Phys. 61 1279 (2016)
  116. Douti D-B, Bégou T et al Appl. Phys. A 122 (7) (2016)
  117. Zayarny D A, Ionin A A et al Laser Phys. Lett. 13 076101 (2016)
  118. Kudryashov S I, Ionin A A International Journal Of Heat And Mass Transfer 99 383 (2016)
  119. Gavasheli Yu O, Komarov P S et al Tech. Phys. Lett. 42 567 (2016)
  120. Fang R, Vorobyev A, Guo Ch Light Sci Appl 6 e16256 (2016)
  121. Benavides O, de la Cruz M L et al Laser Phys. 26 126101 (2016)
  122. Kan H, Zhang Sh et al Optics Communications 361 175 (2016)
  123. Bieda M, Siebold M, Lasagni A F Applied Surface Science 387 175 (2016)
  124. Weidmann P, Weber U et al Meccanica 51 279 (2016)
  125. Savintsev A P, Gavasheli Yu O et al J. Phys.: Conf. Ser. 774 012118 (2016)
  126. Ionin A A, Kudryashov S I et al Bull. Russ. Acad. Sci. Phys. 80 450 (2016)
  127. Anoop K K, Harilal S S et al 120 (18) (2016)
  128. Bert Huis in ’t Veld, Overmeyer L et al CIRP Annals 64 701 (2015)
  129. Barberio M, Veltri S et al Appl. Phys. A 120 909 (2015)
  130. Zhao Y, Cui H et al Opt. Express 23 14126 (2015)
  131. (Laser-Induced Damage in Optical Materials: 2015) Vol. Laser-Induced Damage in Optical Materials: 2015What time-resolved measurements tell us about femtosecond laser damage?Gregory J.ExarhosVitaly E.GruzdevJoseph A.MenapaceDetlevRistauMJSoileauAndriusMelninkaitisNerijusŠiaulysLinasSmalakysBalysMomgaudisJuliusVaicenavičiusSimonaBarkauskaitėValdasSirutkaitisLaurentGallaisStephaneGuizard9632 (2015) p. 96320O
  132. Potyomkin G V, Ligachev A E et al J. Phys.: Conf. Ser. 652 012005 (2015)
  133. (Nanophotonics and Macrophotonics for Space Environments IX) Vol. Nanophotonics and Macrophotonics for Space Environments IXDeflection of uncooperative targets using laser ablationEdward W.TaylorDavid A.CardimonaNicolasThiryMassimilianoVasile9616 (2015) p. 96160X
  134. Potemkin G V, Lepakova O K Inorg. Mater. Appl. Res. 6 193 (2015)
  135. Kitai M S, Semchishen A V, Semchishen V A Quantum Electron. 45 927 (2015)
  136. Lopez J, Mincuzzi G et al 27 (S2) (2015)
  137. Krasik Ya E, Leopold J G 22 (8) (2015)
  138. Kono M, Baldwin K G H et al Langmuir 31 1596 (2015)
  139. Barba F J, Puértolas E et al Food Waste Recovery (2015) p. 249
  140. Cherenda N N, Laskovnev A P et al Inorg. Mater. Appl. Res. 6 114 (2015)
  141. Ionin A A, Kudryashov S I et al Jetp Lett. 101 308 (2015)
  142. (International Conference on Atomic and Molecular Pulsed Lasers XII) Vol. International Conference on Atomic and Molecular Pulsed Lasers XIIFeatures of the synthesis of nanocolloid oxides by laser ablation of bulk metal targets in solutionsVictor F.TarasenkoAndrey M.KabanovIvan N.LapinValery A.Svetlichnyi9810 (2015) p. 98100T
  143. Oladyshkin I V, Fadeev D A, Mironov V A J. Opt. 17 075502 (2015)
  144. (Damage to VUV, EUV, and X-ray Optics V) Vol. Damage to VUV, EUV, and X-ray Optics VMaterial properties of lithium fluoride for predicting XUV laser ablation rate and threshold fluenceLiborJuhaSašaBajtRichardLondonTomášBlejchařVáclavNevrlýMichalVašinekMichalDostálLukášPečínkaJakubDlabkaMartinStachoňLiborJuhaPetrBitalaZdeněkZelingerPeterPiraJanWild9511 (2015) p. 95110K
  145. Benavides O, de la Cruz M L et al Optics And Lasers In Engineering 68 83 (2015)
  146. Zorov N B, Popov A M et al Russ. Chem. Rev. 84 1021 (2015)
  147. (Nanophotonics and Macrophotonics for Space Environments VIII) Vol. Nanophotonics and Macrophotonics for Space Environments VIIIRecent advances in laser ablation modelling for asteroid deflection methodsEdward W.TaylorDavid A.CardimonaNicolasThiryMassimilianoVasile9226 (2014) p. 922608
  148. Kozadaev K V Quantum Electron. 44 325 (2014)
  149. Kozadaev K V J Eng Phys Thermophy 87 704 (2014)
  150. Ashitkov S I, Komarov P S et al Quantum Electron. 44 535 (2014)
  151. Gurevich E L, Gurevich S V Applied Surface Science 302 118 (2014)
  152. Zavestovskaya I N Springer Series In Materials Science Vol. Fundamentals of Laser-Assisted Micro- and NanotechnologiesLaser Nanocrystallization of Metals195 Chapter 3 (2014) p. 51
  153. Gallais L, Bergeret E et al Appl. Phys. A 115 177 (2014)
  154. Artyukov I A, Zayarniy D A et al Jetp Lett. 99 51 (2014)
  155. Autrique D, Alexiades V 115 (16) (2014)
  156. FURUKAWA Hiroyuki, HEYA Manabu, NAKANO Hitoshi Rle 42 784 (2014)
  157. Irimiciuc Ş A, Agop M et al Jpn. J. Appl. Phys. 53 116202 (2014)
  158. Starikov S V, Faenov A Ya et al Appl. Phys. B 116 1005 (2014)
  159. Bosio A, Sozzi M et al Thin Solid Films 562 638 (2014)
  160. Goncharov V K, Kozadaev K V et al J Eng Phys Thermophy 86 798 (2013)
  161. Liu Y, Brelet Y et al Phys. Rev. Lett. 110 (9) (2013)
  162. Autrique D, Clair G et al 114 (2) (2013)
  163. Vorobyev A Y, Guo Ch Laser & Photonics Reviews 7 385 (2013)
  164. Demaske B J, Zhakhovsky V V et al Phys. Rev. B 87 (5) (2013)
  165. Autrique D, Gornushkin I et al 103 (17) (2013)
  166. Inogamov N A, Zhakhovsky V V et al Contrib. Plasma Phys. 53 796 (2013)
  167. Lopez J, Zaouter Y et al International Congress on Applications of Lasers & Electro-Optics, (2013) p. 686
  168. Goncharov V K, Kozadaev K V et al J Eng Phys Thermophy 86 805 (2013)
  169. Benavides O, Golikov V, Lebedeva O Appl. Phys. A 112 113 (2013)
  170. Kochiev D G, Prokhorov A M et al Handbook of Solid-State Lasers (2013) p. 572
  171. Baset F, Popov K et al Opt. Express 21 12527 (2013)
  172. Roger T W, He W et al 101 (14) (2012)
  173. Zhang W, Li L et al Appl. Phys. A 109 291 (2012)
  174. Surface Science 1 (2012) p. 353
  175. Gordon E B, Karabulin A V et al Chemical Physics Letters 519-520 64 (2012)
  176. Yan Z, Chrisey D B Journal Of Photochemistry And Photobiology C: Photochemistry Reviews 13 204 (2012)
  177. De Giacomo A, Dell’Aglio M et al Spectrochimica Acta Part B: Atomic Spectroscopy 78 1 (2012)
  178. Goncharov V K, Kozadaev K V et al J Eng Phys Thermophy 85 42 (2012)
  179. Rezaei F, Tavassoli S H Spectrochimica Acta Part B: Atomic Spectroscopy 78 29 (2012)
  180. Vorobyev A, Guo Ch et al Nanomaterials 1 (2012) p. 203
  181. Chumakov A N, Bereza N A et al J Eng Phys Thermophy 84 567 (2011)
  182. Varakin V N, Kuzyakov Yu Ya Moscow Univ. Chem. Bull. 66 59 (2011)
  183. Skibina Yu S, Tuchin V V et al Quantum Electron. 41 284 (2011)
  184. Horvath E, Erenyi A et al 2011 IEEE 17th International Symposium for Design and Technology in Electronic Packaging (SIITME), (2011) p. 153
  185. Vorobyev A Y, Guo Ch L JNanoR 14 57 (2011)
  186. Gamaly E G Physics Reports 508 91 (2011)
  187. Ponomarenko O, Nikulin A Y et al J Synchrotron Rad 18 580 (2011)
  188. Goncharov V K, Kozadaev K V, Shchegrikovich D V J Eng Phys Thermophy 84 781 (2011)
  189. Alekhin A I, Perminov P A et al J. Opt. Technol. 78 161 (2011)
  190. Zazhogin A P, Umreiko D S et al J Appl Spectrosc 78 719 (2011)
  191. GONG XIU-FANG, YANG GONG-XIAN et al Int. J. Mod. Phys. B 25 543 (2011)
  192. Goncharov V K, Kozadaev K V, Shchehrykovich D V Opt. Mem. Neural Networks 20 255 (2011)
  193. Vorobyev A Y, Guo Ch 110 (4) (2011)
  194. Pugachevskii M A, Zavodinskii V G, Kuz’menko A P Tech. Phys. 56 254 (2011)
  195. Gordon E B, Karabulin A V et al J. Exp. Theor. Phys. 112 1061 (2011)
  196. Vorobyev A Y, Guo Ch NS 03 488 (2011)
  197. Golosov E V, Emel’yanov V I et al Inorg. Mater. Appl. Res. 2 206 (2011)
  198. Li M, Zhang H et al 109 (9) (2011)
  199. Kumar P, Tripathi V K 99 (2) (2011)
  200. Bulgakov A V, Evtushenko A B et al Appl. Phys. A 101 585 (2010)
  201. Kumar A, George S et al Laser Part. Beams 28 387 (2010)
  202. Schneider Ch W, Lippert T Springer Series In Materials Science Vol. Laser Processing of MaterialsLaser Ablation and Thin Film Deposition139 Chapter 5 (2010) p. 89
  203. Aggoune S, Vidal F, Amara E H Appl. Phys. A 101 167 (2010)
  204. Kumar N, Dash S et al Sadhana 35 493 (2010)
  205. Sajti C L, Sattari R et al J. Phys. Chem. C 114 2421 (2010)
  206. Demaske B J, Zhakhovsky V V et al Phys. Rev. B 82 (6) (2010)
  207. Tavangar A, Tan B, Venkatakrishnan K J. Micromech. Microeng. 20 085016 (2010)
  208. Vladoiu I, Stafe M et al Eur. Phys. J. Appl. Phys. 47 30702 (2009)
  209. Senadheera S, Tan B, Venkatakrishnan K Journal Of Nanotechnology 2009 1 (2009)
  210. Tan B, Venkatakrishnan K Opt. Express 17 1064 (2009)
  211. Goncharov V K, Kozadaev K V et al J Eng Phys Thermophy 82 630 (2009)
  212. Conde J C, González P et al Appl. Phys. A 95 465 (2009)
  213. Golosov E V, Emel’yanov V I et al Jetp Lett. 90 107 (2009)
  214. Korfiatis D P, Thoma K -A Th, Vardaxoglou J C Applied Surface Science 255 7605 (2009)
  215. Garcia C C, Lindner H, Niemax K J. Anal. At. Spectrom. 24 14 (2009)
  216. Axente E, Noël S et al Applied Surface Science 255 9734 (2009)
  217. Shabanov S V, Gornushkin I B, Winefordner J B Appl. Opt. 47 1745 (2008)
  218. Maksimović A, Lugomer S et al 104 (12) (2008)
  219. Hermann J, Noël S et al Laser Phys. 18 374 (2008)
  220. Stafe M, Vladoiu I et al International Congress on Applications of Lasers & Electro-Optics, (2008) p. P130
  221. Colombier J P, Combis P et al Phys. Rev. E 77 (3) (2008)
  222. Ibrahim Y, Alsharaeh E et al J. Phys. Chem. A 112 1112 (2008)
  223. FURUKAWA Hiroyuki Rle 36 742 (2008)
  224. Baxter N P, Shabanov S V 49 (9) (2008)
  225. Garcia C C, Lindner H et al J. Anal. At. Spectrom. 23 470 (2008)
  226. Fardel R, Nagel M et al Appl. Phys. A 90 661 (2008)
  227. Ershov-Pavlov E A, Katsalap K Yu et al Spectrochimica Acta Part B: Atomic Spectroscopy 63 1024 (2008)
  228. Urbassek H M Handbook Of Surface Science Vol. DynamicsChapter 17 Sputtering and Laser Ablation3 (2008) p. 871
  229. Kolasinski K W Handbook Of Surface Science Vol. DynamicsChapter 16 Growth and Etching of Semiconductors3 (2008) p. 787
  230. Tani G, Orazi L et al 130 (3) (2008)
  231. Rafique M S, Khaleeq-Ur-Rahman M et al Plasma Sci. Technol. 10 450 (2008)
  232. Yu B, Lu P et al J. Opt. A: Pure Appl. Opt. 10 035301 (2008)
  233. Sushkov A O, Budker D Phys. Rev. A 77 (4) (2008)
  234. Volkov N B, Kundikova N D et al Tech. Phys. Lett. 33 69 (2007)
  235. Colombier J P, Combis P et al Phys. Rev. B 75 (10) (2007)
  236. Kumar N, Tripathi V K 14 (10) (2007)
  237. Zhou Y, Hong M H et al Journal Of Materials Processing Technology 192-193 212 (2007)
  238. Upadhyay A K, Urbassek H M J. Phys. D: Appl. Phys. 40 3518 (2007)
  239. Povarnitsyn M E, Itina T E et al Phys. Rev. B 75 (23) (2007)
  240. Schou J, Amoruso S, Lunney Ja G Springer Series In Optical Sciences Vol. Laser Ablation and its ApplicationsPlume Dynamics129 Chapter 4 (2007) p. 67
  241. Guo W, Wang Z B et al 90 (24) (2007)
  242. Jha H, Kikuchi T et al Appl. Phys. A 88 617 (2007)
  243. Amoruso S, Bruzzese R et al Appl. Phys. A 89 1017 (2007)
  244. Hergenröder R Spectrochimica Acta Part B: Atomic Spectroscopy 61 284 (2006)
  245. Vorobyev A Y, Guo Ch Appl. Phys. A 86 235 (2006)
  246. Zhou Y, Hong M H et al 88 (2) (2006)
  247. Hergenröder R J. Anal. At. Spectrom. 21 1016 (2006)
  248. Hergenröder R J. Anal. At. Spectrom. 21 517 (2006)
  249. Bykov N Yu, Lukyanov G A Thermophys. Aeromech. 13 523 (2006)
  250. Stoyanovsky V O, Snytnikov V N et al Tech. Phys. 51 514 (2006)
  251. Gornushkin I B, Shabanov S V et al 100 (7) (2006)
  252. Hergenröder R J. Anal. At. Spectrom. 21 505 (2006)
  253. Tani G, Orazi L et al Manufacturing Engineering and Textile Engineering, (2006) p. 21
  254. Schou J Materials Surface Processing by Directed Energy Techniques (2006) p. 35
  255. Hergenröder R, Miclea M, Hommes V Nanotechnology 17 4065 (2006)
  256. Prior Y, Zhang K et al Springer Series In Chemical Physics Vol. Ultrafast Phenomena XIVFemtosecond Laser Material Processing - How Short is Short?79 Chapter 250 (2005) p. 819
  257. Lugomer S, Mihaljević B et al 97 (7) (2005)
  258. Pietanza L D, Colonna G, Capitelli M Applied Surface Science 248 103 (2005)
  259. Anisimov S I, Bityurin N M, Luk’yanchuk B S Photo-Excited Processes, Diagnostics and Applications Chapter 5 (2004) p. 121
  260. Márton Z, Landström L, Heszler P Appl. Phys. A 79 579 (2004)
  261. Prior Y, Zhang K et al Nonlinear Optics: Materials, Fundamentals and Applications, (2004) p. ThB7
  262. Hong M H, Luk’yanchuk B et al Appl. Phys. A 79 791 (2004)
  263. Koch J, Korte F et al International Congress on Applications of Lasers & Electro-Optics, (2004) p. M103
  264. Itina T E, Hermann J et al Thin Solid Films 453-454 513 (2004)
  265. Ibrahim Y M, Alsharaeh E H, El-Shall M S J. Phys. Chem. B 108 3959 (2004)
  266. Hong M H, Huang S M et al MRS Proc. 780 (2003)
  267. Toftmann B, Schou J, Lunney J G Phys. Rev. B 67 (10) (2003)
  268. Bityurin N, Luk’yanchuk B S et al Chem. Rev. 103 519 (2003)
  269. Anisimov S I, Zhakhovskii V V et al Jetp Lett. 77 606 (2003)
© 1918–2024 Uspekhi Fizicheskikh Nauk
Email: ufn@ufn.ru Editorial office contacts About the journal Terms and conditions