RSS feeds
ÐóññêèéEnglish
Issue 12, 2025
Volume year page
Issues Authors PACS Subscription For authors

Issues

 / 

2002

 / 

April

  

Reviews of topical problems


Carbon nanotubes and their emission properties


National Research Centre ‘Kurchatov Institute’, pl. akad. Kurchatova 1, Moscow, 123182, Russian Federation

The current methods of synthesis and investigation of carbon nanotubes are reviewed. The interconnection between structural peculiarities and electronic characteristics of carbon nanotubes has been studied. The recently developed methods of growth of similar nanotubes with pre-assigned characteristics are described. The development of these methods offers the possibility of mass production and application of relevant devices. The phenomenon of electron field emission from carbon nanotubes and possibilities of its usage in flat panel displays, gas discharge devices, etc. is analyzed. Prospects and real achievements in the area of application of nanotubes as cold electron emission sources are discussed.

Fulltext pdf (781 KB)
Fulltext is also available at DOI: 10.1070/PU2002v045n04ABEH001033
PACS: 73.22.−f, 73.63.Fg, 81.07.De (all)
DOI: 10.1070/PU2002v045n04ABEH001033
URL: https://ufn.ru/en/articles/2002/4/b/
000177340900002
Citation: Eletskii A V "Carbon nanotubes and their emission properties" Phys. Usp. 45 369–402 (2002)
BibTexBibNote ® (generic)BibNote ® (RIS)MedlineRefWorks

Îðèãèíàë: Åëåöêèé À Â «Óãëåðîäíûå íàíîòðóáêè è èõ ýìèññèîííûå ñâîéñòâà» ÓÔÍ 172 401–438 (2002); DOI: 10.3367/UFNr.0172.200204b.0401

References (164) Cited by (191) ↓ Similar articles (20)

  1. Das A Materials Science And Engineering: B 311 117771 (2025)
  2. Savin A V Physica A: Statistical Mechanics And Its Applications 676 130878 (2025)
  3. Zaytsev V, Rozhleys I et al 2025 International Conference on Electrical Engineering and Photonics (EExPolytech), (2025) p. 348
  4. Fuad M H, Noor Sh Sh et al Results In Engineering 26 104513 (2025)
  5. López Ch E, Ruiz R J E et al IPSUMTEC 8 (3) 53 (2025)
  6. Padya B, Ravikiran N et al Thin Film Nanomaterials: Synthesis, Properties and Innovative Energy Applications (2024) p. 258
  7. Lebedev V T, Charykov N A et al Colloids And Surfaces B: Biointerfaces 222 113133 (2023)
  8. Milinskiy A Yu, Chernechkin I A, Baryshnikov S V Izvestiâ Akademii Nauk SSSR. Seriâ Fizičeskaâ 87 (9) 1337 (2023) [Milinskiy A Yu, Chernechkin I A, Baryshnikov S V Bull. Russ. Acad. Sci. Phys. 87 (9) 1367 (2023)]
  9. Bilal M, Parveen Sh J. Cond. Matt. 1 (01) 51 (2023)
  10. Gavrilov G E, Buzoverya M E et al Bull. Russ. Acad. Sci. Phys. 86 (8) 956 (2022)
  11. Savin A V, Savina O I J. Exp. Theor. Phys. 134 (1) 60 (2022)
  12. Orletskyi I G, Ilashchuk M I et al Semicond. Sci. Technol. 37 (6) 065027 (2022)
  13. Danilov I I, Buraev D A i dr Vestnik KRAUNTs. Fiziko-matematicheskie nauki (1) 105 (2021)
  14. Milinskii A Yu, Baryshnikov S V et al Phys. Solid State 63 (6) 872 (2021)
  15. Savin A V, Savina O I Phys. Solid State 63 (5) 811 (2021)
  16. Sydorchenko I  M, Shevchenko N  A et al Metallofiz. Noveishie Tekhnol. 43 (12) 1707 (2021)
  17. Savin A V, Savina O I Phys. Solid State 63 (1) 145 (2021)
  18. Jartovsky A  V, Manevich V, Lapsker I Metallofiz. Noveishie Tekhnol. 43 (9) 1195 (2021)
  19. Bulavin L A, Alieksandrov M A et al Ukr. J. Phys. 66 (2) 151 (2021)
  20. Galstian I  Ye, Len E  G et al Metallofiz. Noveishie Tekhnol. 42 (4) 451 (2020)
  21. (6TH INTERNATIONAL CONFERENCE ON X-RAY, ELECTROVACUUM AND BIOMEDICAL TECHNIQUE) Vol. 6TH INTERNATIONAL CONFERENCE ON X-RAY, ELECTROVACUUM AND BIOMEDICAL TECHNIQUEEmission and x-ray characteristics of vertically and random aligned carbon nanotubesA. V.BratsukO. I.IlinD. S.KiselevN. V.KoltunovaN. N.RudykV. I.SavinA. A.SimonovM. L.TaubinA. A.Fedotov2250 (2020) p. 020007
  22. Tomilin O B, Rodionova E V et al Fullerenes, Nanotubes And Carbon Nanostructures 28 (2) 123 (2020)
  23. Tomilin O B, Rodionova E V et al Fullerenes, Nanotubes And Carbon Nanostructures 28 (2) 129 (2020)
  24. Umaev S M, Borisenko D N et al J. Synch. Investig. 14 (3) 555 (2020)
  25. Nanosist. Nanomater. Nanotehnol. 18 (2) (2020)
  26. Savin A V, Savina O I Phys. Solid State 61 (11) 2241 (2019)
  27. Savin A V, Savina O I Phys. Solid State 61 (2) 279 (2019)
  28. Barshutina M N, Kirichenko S O et al Materials Letters 236 183 (2019)
  29. Bratsuk A V, Simonov A A, Taubin M L (AIP Conference Proceedings) Vol. 2091 (2019) p. 020006
  30. Zarubin V S, Sergeeva E S Mat. Mat. Model. (1) 15 (2019)
  31. Cheng Z, Sun L et al IOP Conf. Ser.: Mater. Sci. Eng. 475 012017 (2019)
  32. Sun L, Cheng Z et al IOP Conf. Ser.: Mater. Sci. Eng. 475 012018 (2019)
  33. Fomenko L S, Lubenets S V et al Low Temperature Physics 45 (5) 568 (2019)
  34. (PHYSICS, TECHNOLOGIES AND INNOVATION (PTI-2019): Proceedings of the VI International Young Researchers’ Conference) Vol. PHYSICS, TECHNOLOGIES AND INNOVATION (PTI-2019): Proceedings of the VI International Young Researchers’ ConferenceInfluence of functional groups on the electrophysical properties of carbon nanotubes with different geometryYu. V.TsykarevaS. N.Kapustin2174 (2019) p. 020179
  35. Gandilyan S V, Gandilyan D V Tech. Phys. 64 (7) 917 (2019)
  36. Davidovich M V Phys.-Usp. 62 (12) 1173 (2019)
  37. Eidelman E D Tech. Phys. 64 (10) 1409 (2019)
  38. Obodovskiy I Radiation (2019) p. 351
  39. Khisamov R, Nazarov K et al Lett. Mater. 9 (4s) 566 (2019)
  40. Mykhailova H Yu, Nischenko M M Springer Proceedings In Physics Vol. Nanocomposites, Nanostructures, and Their ApplicationsElectron Irradiation of Carbon Nanotubes221 Chapter 37 (2019) p. 547
  41. Kolesnikova A S, Mazepa M M Phys. Solid State 60 (9) 1827 (2018)
  42. Myreev A V, Fedorov A G, Vinokurov P V (AIP Conference Proceedings) Vol. 2035 (2018) p. 020013
  43. Zarubin V S, Sergeeva E S J. Phys.: Conf. Ser. 991 012080 (2018)
  44. Nishchenko M  M, Mykhailova H  Yu et al Metallofiz. Noveishie Tekhnol. 40 (2) 169 (2018)
  45. Nishchenko M  M, Mykhailova H  Yu et al Metallofiz. Noveishie Tekhnol. 40 (6) 749 (2018)
  46. Eletskii A V, Sarychev A K et al Dokl. Phys. 63 (12) 496 (2018)
  47. Shavelkina M B, Amirov R Kh et al Tech. Phys. Lett. 44 (11) 1017 (2018)
  48. Polotskaya G A, Lebedev V T et al Russ J Appl Chem 90 (9) 1549 (2017)
  49. Khvesyuk V I, Skryabin A S High Temp 55 (3) 434 (2017)
  50. Egorov N, Sheshin E Springer Series In Advanced Microelectronics Vol. Field Emission ElectronicsCarbon-Based Field-Emission Cathodes60 Chapter 6 (2017) p. 295
  51. Bezrodna T V, Klishevich G V et al J Appl Spectrosc 84 (4) 560 (2017)
  52. Eletskii A V J. Phys.: Conf. Ser. 891 012368 (2017)
  53. Lakalin A V, Pavlov A A, Shamanaev A A Russ Microelectron 46 (1) 12 (2017)
  54. Parveen Sh, Kumar A et al Physica B: Condensed Matter 505 1 (2017)
  55. Podlivaev A I, Openov L A Semiconductors 51 (2) 213 (2017)
  56. Goldstein R V, Gorodtsov V A, Lisovenko D S Phys Mesomech 19 (3) 229 (2016)
  57. Svavil’nyi M  Ye Metallofiz. Noveishie Tekhnol. 38 (2) 247 (2016)
  58. Parveen Sh, Kumar A et al Materials Research Bulletin 83 12 (2016)
  59. Novotortsev R Yu, Chernyak S A et al Russ. J. Phys. Chem. B 10 (8) 1223 (2016)
  60. Kuvshinova S A, Burmistrov V A et al Nanotechnol Russia 10 (1-2) 1 (2015)
  61. Pinchuk-Rugal’ T M, Dmytrenko O P et al Nucl. Phys. At. Energy 16 (3) 230 (2015)
  62. Bocharov G S, Eletskii A V et al Journal of Vacuum Science & Technology B, Nanotechnology and Microelectronics: Materials, Processing, Measurement, and Phenomena 33 (4) (2015)
  63. Eletskii A V, Zitserman V Yu, Kobzev G A High Temp 53 (1) 130 (2015)
  64. Pinchuk-Rugal T M, Dmytrenko O P et al Ukr. J. Phys. 60 (11) 1150 (2015)
  65. Lupichev L N, Savin A V, Kadantsev V N Synergetics of Molecular Systems Springer Series In Synergetics Chapter 6 (2015) p. 171
  66. Usanov D A, Skripal’ A V, Romanov A V Semiconductors 49 (13) 1689 (2015)
  67. Onishchenko D V Power Technol Eng 47 (5) 317 (2014)
  68. Usanov D A, Skripal’ A V, Romanov A V Tech. Phys. 59 (6) 873 (2014)
  69. Tuchin A V, Nestrugina A V et al J. Phys.: Conf. Ser. 541 012008 (2014)
  70. Vengrenovich R D, Ivanskii B V et al Journal Of Nanomaterials 2014 (1) (2014)
  71. Khamdohov E Z, Teshev R Sh et al J. Synch. Investig. 8 (6) 1306 (2014)
  72. Gromov D G, Shulyat’ev A S et al Semiconductors 48 (13) 1732 (2014)
  73. Krasilin A A, Gusarov V V Russ J Gen Chem 84 (12) 2359 (2014)
  74. Zakharchenko A A, Petrov B K Russ Phys J 56 (12) 1319 (2014)
  75. Galperin V A, Zhukov A A et al Semiconductors 48 (13) 1742 (2014)
  76. Onishchenko D V, Reva V P, Voronov B A J Anal Chem 69 (5) 403 (2014)
  77. Parveen Sh, Husain S et al Physics of Semiconductor Devices Environmental Science And Engineering Chapter 189 (2014) p. 733
  78. Makarov G N Uspekhi Fizicheskikh Nauk 183 (7) 673 (2013) [Makarov G N Phys.-Usp. 56 (7) 643 (2013)]
  79. Onishchenko D V, Reva V P Chem Petrol Eng 49 (1-2) 57 (2013)
  80. Bocharov G, Eletskii A Nanomaterials 3 (3) 393 (2013)
  81. Onishchenko D V, Reva V P Inorg Mater 49 (7) 652 (2013)
  82. Onishchenko D V, Reva V P Fibre Chem 45 (2) 71 (2013)
  83. Bulyarskii S V, Lakalin A V, Basaev A S Semiconductors 47 (13) 1692 (2013)
  84. Onishchenko D V Surf. Engin. Appl.Electrochem. 49 (6) 445 (2013)
  85. Brzhezinskaya M M, Baitinger E M et al Phys. Solid State 55 (4) 850 (2013)
  86. Onishchenko D V, Reva V P et al J Eng Phys Thermophy 86 (5) 1035 (2013)
  87. Onishchenko D V, Reva V P et al Solid Fuel Chem. 47 (4) 237 (2013)
  88. Onishchenko D V, Reva V P et al Coke Chem. 56 (3) 107 (2013)
  89. Bocharov G S, Eletskii A V Tech. Phys. 58 (10) 1512 (2013)
  90. Macutkevic J, Seliuta D et al Chemical Physics 404 129 (2012)
  91. Zelenskii O I, Shmal’ko V M et al Coke Chem. 55 (2) 76 (2012)
  92. Onishchenko D V, Reva V P et al Dokl Phys Chem 447 (2) 213 (2012)
  93. Aban’shin N P, Gorfinkel’ B I, Yakunin A N Tech. Phys. Lett. 38 (5) 428 (2012)
  94. Eletskii AV, Erkimbaev AO et al Data Sci. J. 11 (0) 126 (2012)
  95. Bocharov G S, Eletskii A V Fullerenes, Nanotubes And Carbon Nanostructures 20 (4-7) 444 (2012)
  96. Cherkasov N B, Savilov S V et al Russ Chem Bull 61 (6) 1057 (2012)
  97. Ivanov A S, Savilov S V et al Russ Chem Bull 61 (10) 1882 (2012)
  98. Bocharov G S, Eletskii A V Tech. Phys. 57 (1) 154 (2012)
  99. Lyubutin I S, Anosova O A et al Carbon 50 (7) 2628 (2012)
  100. Eletskii A V, Erkimbaev A O et al High Temp 50 (4) 488 (2012)
  101. Bulyarskii S V Russ Microelectron 41 (8) 474 (2012)
  102. Rembeza S I, Shmatova Yu V et al Semiconductors 46 (9) 1190 (2012)
  103. Cherkasov N B, Savilov S B et al Russ. J. Phys. Chem. 86 (3) 424 (2012)
  104. Bocharov G S, Knizhnik A A et al Tech. Phys. 57 (2) 270 (2012)
  105. Bocharov G S, Eletskii A V Tech. Phys. 57 (7) 1008 (2012)
  106. Klymenko Yu O Low Temperature Physics 37 (6) 496 (2011)
  107. Belonenko M B, Lebedev N G, Sudorgin S A Phys. Solid State 53 (9) 1943 (2011)
  108. Prabhakar R R, Varghese B et al Chemical Physics Letters 501 (4-6) 431 (2011)
  109. Bocharov G S, Eletskii A V, Sommerer T J Tech. Phys. 56 (4) 540 (2011)
  110. Santandrea S, Giubileo F et al Applied Physics Letters 98 (16) (2011)
  111. Golovko E I, Zolotarenko A D et al NATO Science For Peace And Security Series C: Environmental Security Vol. Carbon Nanomaterials in Clean Energy Hydrogen Systems - IIHeat Stability of Me-C Nanocomposites2 Chapter 29 (2011) p. 369
  112. Aban’shin N P, Gorfinkel’ B I, Yakunin A N Tech. Phys. Lett. 37 (4) 336 (2011)
  113. Usanov D A, Skripal’ A V, Romanov A V Tech. Phys. 56 (1) 102 (2011)
  114. Zolotarenko A D, Zolotarenko A D et al NATO Science For Peace And Security Series C: Environmental Security Vol. Carbon Nanomaterials in Clean Energy Hydrogen Systems - IIEncapsulated Ferromagnetic Nanoparticles in Carbon Shells2 Chapter 10 (2011) p. 127
  115. Gerasimov G Ya J Eng Phys Thermophy 83 (4) 849 (2010)
  116. Boguslavskii L Z Surf. Engin. Appl.Electrochem. 46 (4) 352 (2010)
  117. Zhdanok S A, Penyazkov O G, Fomin N A J Eng Phys Thermophy 83 (6) 1098 (2010)
  118. Eletskii A V Uspekhi Fizicheskikh Nauk 180 (9) 897 (2010) [Eletskii A V Phys.-Usp. 53 (9) 863 (2010)]
  119. Bel’skii M D, Bocharov G S et al Tech. Phys. 55 (2) 289 (2010)
  120. Belenkov E A, Zinatulina Ya A Phys. Solid State 52 (4) 868 (2010)
  121. Belonenko M B, Glazov S Yu, Mescheryakova N E Semiconductors 44 (9) 1211 (2010)
  122. Vorob’eva A I Uspekhi Fizicheskikh Nauk 180 (3) 265 (2010)
  123. Baskin L M, Neittaanmäki P, Plamenevskii B A Tech. Phys. 55 (12) 1793 (2010)
  124. Geetha R, Gayathri V Superlattices And Microstructures 48 (1) 41 (2010)
  125. Lyubutin I S, Frolov K V et al J. Exp. Theor. Phys. 109 (2) 254 (2009)
  126. Tripol’skii A I, Serebrii T G et al Theor Exp Chem 45 (2) 103 (2009)
  127. Pleshakov V F Crystallogr. Rep. 54 (7) 1230 (2009)
  128. Vul’ A Ya, Sokolov V I Nanotechnol Russia 4 (7-8) 397 (2009)
  129. Apresyan L A, Vlasov D V et al Tech. Phys. 54 (3) 419 (2009)
  130. Vorob’eva A I Uspekhi Fizicheskikh Nauk 179 (3) 243 (2009) [Vorob’eva A I Phys.-Usp. 52 (3) 225 (2009)]
  131. Murzashev A I J. Exp. Theor. Phys. 108 (1) 111 (2009)
  132. Kleshch V I, Obraztsov A N, Obraztsova E D Jetp Lett. 90 (6) 464 (2009)
  133. Eletskii A V, Bocharov G S Plasma Sources Sci. Technol. 18 (3) 034013 (2009)
  134. Verma P, Kumar P et al Fullerenes, Nanotubes And Carbon Nanostructures 17 (3) 249 (2009)
  135. Eletskii A V Uspekhi Fizicheskikh Nauk 179 (3) 225 (2009) [Eletskii A V Phys.-Usp. 52 (3) 209 (2009)]
  136. Velichkina L M, Gossen L P Pet. Chem. 49 (6) 445 (2009)
  137. Geetha R, Gayathri V Phys. Scr. 80 (2) 025701 (2009)
  138. Apresyan L A, Vlasov D V et al Tech. Phys. Lett. 35 (11) 1065 (2009)
  139. Voitylov V V, Voitylov A V et al Russ J Appl Chem 81 (2) 207 (2008)
  140. Tegaev R I, Khokonov Kh B et al Bull. Russ. Acad. Sci. Phys. 72 (10) 1362 (2008)
  141. Ovsienko I V, Matzuy LyudmilaYu et al Nanoscale Res Lett 3 (2) (2008)
  142. Sharakhovskii L I, Bublievskii A F et al J Eng Phys Thermophy 81 (4) 643 (2008)
  143. Aliev A E Infrared Physics & Technology 51 (6) 541 (2008)
  144. Kortov V S, Slesarev A I, Tkachev A G Russ. J. Phys. Chem. 82 (3) 492 (2008)
  145. Musatov A L, Gulyaev Yu V et al J. Commun. Technol. Electron. 52 (6) 714 (2007)
  146. Bocharov G S, Eletskii A V Tech. Phys. 52 (4) 498 (2007)
  147. Verma P, Chaturvedi P et al J Mater Sci: Mater Electron 18 (6) 677 (2007)
  148. Chivilikhin S A, Popov I Yu et al Glass Phys Chem 33 (4) 315 (2007)
  149. Maslov V I Tech. Phys. Lett. 33 (12) 1069 (2007)
  150. Ivanovskii A L Uspekhi Fizicheskikh Nauk 177 (10) 1083 (2007)
  151. MAKARETS M V, PRYLUTSKYY YU I et al Hydrogen Materials Science and Chemistry of Carbon Nanomaterials NATO Security Through Science Series A: Chemistry And Biology Chapter 13 (2007) p. 119
  152. Eletskii A V Uspekhi Fizicheskikh Nauk 177 (3) 233 (2007)
  153. Abramov G V, Ivanov A I, Popov G V J Eng Phys Thermophy 80 (6) 1116 (2007)
  154. Lorikyan M P, Gary C K J. Phys.: Condens. Matter 19 (27) 276212 (2007)
  155. Korytkova E N, Pivovarova L N et al Russ J Gen Chem 77 (10) 1669 (2007)
  156. Alekseev N I Phys. Solid State 48 (8) 1605 (2006)
  157. Belov V V, Dobrokhotov S Yu, Tudorovskiy T Ya J Eng Math 55 (1-4) 183 (2006)
  158. Ishchenko E V, Yatsimirskii V K et al Theor Exp Chem 42 (4) 229 (2006)
  159. Zaporotskova I V, Lebedev N G, Zaporotskov P A Phys. Solid State 48 (4) 806 (2006)
  160. Lee Y, Lee S, Jeon D Y 2006 19th International Vacuum Nanoelectronics Conference, (2006) p. 79
  161. Brüning J, Dobrokhotov S et al Russ. J. Math. Phys. 13 (4) 380 (2006)
  162. Ivanovskaya V V, Seifert G, Ivanovskii A L Russ. J. Inorg. Chem. 51 (2) 320 (2006)
  163. Baskin L M, Neittaanmäki P et al Nanotechnology 17 (4) S19 (2006)
  164. Alekseev N I Phys. Solid State 48 (8) 1616 (2006)
  165. Apresyan L A, Vlasov D V et al Tech. Phys. 51 (9) 1247 (2006)
  166. Srivastava S K, Shukla A K et al Thin Solid Films 492 (1-2) 124 (2005)
  167. Vul’ A Ya, Eidelman E D, Dideikin A T NATO Science Series Vol. Synthesis, Properties and Applications of Ultrananocrystalline DiamondThermoelectric Effect in Field Electron Emission from Nanocarbon192 Chapter 32 (2005) p. 383
  168. Bocharov G S, Eletskii A V Tech. Phys. 50 (7) 944 (2005)
  169. Savinskiı̆ S S Tech. Phys. Lett. 31 (8) 695 (2005)
  170. Eletskii A V Uspekhi Fizicheskikh Nauk 174 (11) 1191 (2004)
  171. Zhbanov A I, Sinitsyn N I, Torgashov G V Radiophysics And Quantum Electronics 47 (5-6) 435 (2004)
  172. Reshetenko T V, Avdeeva L B et al Carbon 42 (1) 143 (2004)
  173. Lebedev N G, Ponomareva I V, Chernozatonskii L A Int J Of Quantum Chemistry 96 (2) 155 (2004)
  174. Sora L, Duk Y Je Technical Digest of the 17th International Vacuum Nanoelectronics Conference (IEEE Cat. No.04TH8737), (2004) p. 124
  175. Yu S I, Prikhodko G P et al NATO Science Series II: Mathematics, Physics And Chemistry Vol. Hydrogen Materials Science and Chemistry of Carbon NanomaterialsSynthesis and Structural Peculiarities of the Exfoliated Graphite Modified by Carbon Nanostructures172 Chapter 47 (2004) p. 405
  176. Vol. XXIst International Symposium on Discharges and Electrical Insulation in Vacuum, 2004. Proceedings. ISDEIV.Field emission of broadband semiconductors and dielectricsL.M.Baskin1 (2004) p. 3
  177. Savin A V, Savina O I Phys. Solid State 46 (2) 383 (2004)
  178. Lebedev N G, Zaporotskova I V, Chernozatonskii L A NATO Science Series II: Mathematics, Physics And Chemistry Vol. Hydrogen Materials Science and Chemistry of Carbon NanomaterialsQuantum Chemical Investigations of the Growth Models of Single Wall Carbon Nanotubes on Polyhen Rings, Fullerenes and Diamond Surface172 Chapter 27 (2004) p. 259
  179. Mikheev G M, Zonov R G et al J. Exp. Theor. Phys. 98 (3) 483 (2004)
  180. Zaporotskova I V, Lebedev N G, Chernozatonskii L A Phys. Solid State 46 (6) 1173 (2004)
  181. Lebedev N G, Zaporotskova I V, Chernozatonskii L A Int J Of Quantum Chemistry 100 (4) 548 (2004)
  182. Kalinkin A N, Skorikov V M Inorganic Materials 39 (8) 765 (2003)
  183. Kozlov G I Tech. Phys. Lett. 29 (9) 787 (2003)
  184. Eletskii A V ChemInform 34 (25) (2003)
  185. Prinz V Ya Russian Physics Journal 46 (6) 568 (2003)
  186. Kozlov G I, Assovskii I G Tech. Phys. 48 (11) 1436 (2003)
  187. Ivanovskii A L Phys. Solid State 45 (10) 1829 (2003)
  188. Zakhidov A A, Obraztsov A N et al J. Exp. Theor. Phys. 97 (6) 1240 (2003)
  189. Zolotukhin A A, Obraztsov A N et al J. Exp. Theor. Phys. 97 (6) 1154 (2003)
  190. Enyashin A N, Ivanovskaya V V et al Doklady Physical Chemistry 391 (4-6) 187 (2003)
  191. Dideykin A T, Eidelman E D, Vul’ A Ya Solid State Communications 126 (9) 495 (2003)
© 1918–2025 Uspekhi Fizicheskikh Nauk
Email: ufn@ufn.ru Editorial office contacts About the journal Terms and conditions