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1959

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February

  

Reviews of topical problems


The compensation principle and the self-consistent field method


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Fulltext is also available at DOI: 10.1070/PU1959v002n02ABEH003122
PACS: 71.15.Mb, 74.20.−z, 74.25.Kc, 71.45.Gm, 71.15.Ap (all)
DOI: 10.1070/PU1959v002n02ABEH003122
URL: https://ufn.ru/en/articles/1959/2/b/
Citation: Bogolyubov N N "The compensation principle and the self-consistent field method" Sov. Phys. Usp. 2 236–254 (1959)
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Оригинал: Боголюбов Н Н «О принципе компенсации и методе самосогласованного поля» УФН 67 549–580 (1959); DOI: 10.3367/UFNr.0067.195904a.0549

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  47. Bulygin A D Atmos Ocean Opt 27 (4) 317 (2014)
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  50. Pogosov W V, Lin N, Misko V R Eur. Phys. J. B 86 (5) (2013)
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  56. Shanenko A A, Croitoru M D et al Phys. Rev. A 86 (3) (2012)
  57. Lin Sh-Z, Hu X Phys. Rev. Lett. 108 (17) (2012)
  58. Pogosov W V, Combescot M Physica C: Superconductivity 471 (19-20) 566 (2011)
  59. Nishiyama S, da Providência J et al J. High Energ. Phys. 2011 (2) (2011)
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  62. Dzhioev A A, Kosov D S The Journal of Chemical Physics 134 (4) (2011)
  63. Croitoru M D, Shanenko A A et al Phys. Rev. B 83 (21) (2011)
  64. Croitoru M D, Shanenko A A et al Phys. Rev. B 84 (21) (2011)
  65. Kerimov M K Comput. Math. And Math. Phys. 51 (6) 901 (2011)
  66. KOZHEVNIKOV A A Int. J. Mod. Phys. B 24 (05) 605 (2010)
  67. Arbuzov B A, Volkov M K Phys. Part. Nuclei 41 (6) 901 (2010)
  68. Pogosov W V, Combescot M Jetp Lett. 92 (7) 484 (2010)
  69. Anderson P W Int. J. Mod. Phys. B 24 (20n21) 3983 (2010)
  70. Yunomae Y, Yamamoto D et al Phys. Rev. A 80 (6) (2009)
  71. Kosov D S The Journal of Chemical Physics 131 (17) (2009)
  72. Arbuzov B A Eur. Phys. J. C 61 (1) 51 (2009)
  73. Leinson L B Phys. Rev. C 79 (4) (2009)
  74. CROITORU M D, SHANENKO A A, PEETERS F M Int. J. Mod. Phys. B 23 (20n21) 4257 (2009)
  75. Shanenko A A, Croitoru M D, Peeters F M Electron Transport in Nanosystems NATO Science For Peace And Security Series B: Physics And Biophysics Chapter 8 (2009) p. 79
  76. Croitoru M D, Shanenko A A, Peeters F M Complex Phenomena in Nanoscale Systems NATO Science For Peace And Security Series B: Physics And Biophysics Chapter 1 (2009) p. 1
  77. Nishiyama S, da Providência J et al Nuclear Physics B 802 (1-2) 121 (2008)
  78. le Sueur H Ann. Phys. Fr. 33 (6) 1 (2008)
  79. Peeters F M, Croitoru M D, Shanenko A A Physica C: Superconductivity 468 (4) 326 (2008)
  80. Shanenko A A, Croitoru M D, Peeters F M Phys. Rev. B 75 (1) (2007)
  81. Croitoru M D, Shanenko A A, Peeters F M Phys. Rev. B 76 (2) (2007)
  82. Shanenko A A, Croitoru M D, Peeters F M Europhys. Lett. 76 (3) 498 (2006)
  83. Golikov D S, Koval’ G V Dokl. Math. 73 (3) 457 (2006)
  84. Shanenko A A, Croitoru M D Phys. Rev. B 73 (1) (2006)
  85. Cherny A Yu, Brand J Phys. Rev. A 70 (4) (2004)
  86. Shimoda Y, Nakajima T, Sawada A Physica E: Low-dimensional Systems And Nanostructures 22 (1-3) 56 (2004)
  87. Shanenko A A, Ivanov V A Physics Letters A 322 (5-6) 384 (2004)
  88. Duguet T Phys. Rev. C 69 (5) (2004)
  89. Palistrant M E, Palistrant M E Teor. Mat. Fiz. 135 (1) 137 (2003) [Palistrant M E Theoretical And Mathematical Physics 135 (1) 566 (2003)]
  90. Soloviev V G Landolt-Börnstein - Group I Elementary Particles, Nuclei And Atoms Vol. Z = 2 - 36References for chapter 118A Chapter 6 (2002) p. 41
  91. Soloviev V G Landolt-Börnstein - Group I Elementary Particles, Nuclei And Atoms Vol. Z = 2 - 361.5 Microscopic description of nuclear excited states18A Chapter 3 (2002) p. 17
  92. Staroverov V N, Scuseria G E The Journal of Chemical Physics 117 (24) 11107 (2002)
  93. Nishiyama S, da Providência J, Ohno O Nuclear Physics A 688 (3-4) 882 (2001)
  94. Dobaczewski J Phys. Rev. C 62 (1) (2000)
  95. Yuldashbaeva E Kh, Libert J et al Physics Letters B 461 (1-2) 1 (1999)
  96. Lesovik G B, Martin T, Torrès Ju Phys. Rev. B 60 (17) 11935 (1999)
  97. NISHIYAMA SEIYA Int. J. Mod. Phys. E 08 (05) 461 (1999)
  98. Nishiyama S, da Providência J Phys. Rev. C 60 (6) (1999)
  99. Nishiyama S Symmetries in Science IX Chapter 21 (1997) p. 281
  100. Wycech S, Skalski J et al Phys. Rev. C 54 (4) 1832 (1996)
  101. Galasiewicz Z M Lecture Notes In Physics Vol. Recent Developments in High Temperature SuperconductivitySuperconducting properties of the weakly interacting charged boes gas475 Chapter 18 (1996) p. 279
  102. Dobaczewski J, Nazarewicz W et al Phys. Rev. C 53 (6) 2809 (1996)
  103. Poluektov Yu M Low Temperature Physics 22 (4) 313 (1996)
  104. Wycech S, Smolańczuk R Few-Body Systems Vol. Mesons and Light Nuclei ’95Nuclear Neutron Haloes as Seen by Antiprotons9 Chapter 12 (1995) p. 111
  105. Yamada H Z. Phys. C - Particles And Fields 59 (1) 67 (1993)
  106. Pavlichenkov I M Physics Reports 226 (4-5) 173 (1993)
  107. Osterfeld F Rev. Mod. Phys. 64 (2) 491 (1992)
  108. Safonov V L Physica A: Statistical Mechanics And Its Applications 188 (4) 675 (1992)
  109. Tanaka K, Kobayashi H et al Int J Of Quantum Chemistry 42 (1) 45 (1992)
  110. Chinn C R, Berger J -F et al Phys. Rev. C 45 (4) 1700 (1992)
  111. Kuplevakhskii S V, Fal’ko I I Soviet Journal of Low Temperature Physics 17 (8) 501 (1991)
  112. Nesterenko V O Z. Physik A - Atomic Nuclei 335 (2) 147 (1990)
  113. Davies B, Pearce P A J. Phys. A: Math. Gen. 23 (7) 1295 (1990)
  114. Davies B Physica A: Statistical Mechanics And Its Applications 159 (2) 171 (1989)
  115. Stolarczyk L Z, Monkhorst H J Lecture Notes In Chemistry Vol. Aspects of Many-Body Effects in Molecules and Extended SystemsQuasiparticles in Extended Systems — A Coupled-Cluster Approach50 Chapter 14 (1989) p. 261
  116. Wong K W, Ching W Y Physica C: Superconductivity 158 (1-2) 1 (1989)
  117. Bengtsson R, Dudek J et al Phys. Scr. 39 (2) 196 (1989)
  118. Deloncle I, Libert J et al Physics Letters B 233 (1-2) 16 (1989)
  119. Wenes G, Ginocchio J N Phys. Rev. C 39 (6) 2426 (1989)
  120. Plechko V N Physica A: Statistical Mechanics And Its Applications 152 (1-2) 51 (1988)
  121. Davies B Physica A: Statistical Mechanics And Its Applications 154 (1) 1 (1988)
  122. Davies B J Stat Phys 46 (3-4) 535 (1987)
  123. Deumens E, Weiner B, Öhrn Y Nuclear Physics A 466 (1) 85 (1987)
  124. Waroquier M, Ryckebusch J et al Physics Reports 148 (5) 249 (1987)
  125. Mühlhans K, Mosel U Nuclear Physics A 448 (1) 45 (1986)
  126. Gogny D, Lions P L ESAIM: M2AN 20 (4) 571 (1986)
  127. Bakulev A P, Bogoljubov N N, Kurbatov A M Physica A: Statistical Mechanics And Its Applications 134 (2) 359 (1986)
  128. Soloviev V G Found Phys 16 (1) 63 (1986)
  129. England W B, Sorensen T E, Silver D M Int. J. Quantum Chem. 30 (S20) 81 (1986)
  130. Calais Je-L Advances In Quantum Chemistry Vol. Advances in Quantum Chemistry Volume 17Gap Equations and Instabilities for Extended Systems17 (1985) p. 225
  131. Gvozdev A A, Pronin P I Soviet Physics Journal 28 (1) 4 (1985)
  132. Schmid K W, Grümmer F, Faessler A Phys. Rev. C 29 (1) 308 (1984)
  133. Dobaczewski J, Flocard H, Treiner J Nuclear Physics A 422 (1) 103 (1984)
  134. Weiner B, Goscinski O Phys. Rev. A 27 (1) 57 (1983)
  135. Wysokiński K I, Kuzemsky A L J Low Temp Phys 52 (1-2) 81 (1983)
  136. Takahashi M, Fukutome H Int J Of Quantum Chemistry 24 (6) 603 (1983)
  137. Speth J, Woude A van der Rep. Prog. Phys. 44 (7) 719 (1981)
  138. Dobaczewski J, Skalski J Nuclear Physics A 369 (1) 123 (1981)
  139. Goncalves L L J. Phys. A: Math. Gen. 13 (1) 223 (1980)
  140. Goodman A L Band Structure and Nuclear Dynamics (1980) p. 123
  141. Wong K W, Fung P C W, Lau C C Phys. Rev. A 22 (3) 1272 (1980)
  142. Goodman A L Nuclear Physics A 347 (1-2) 123 (1980)
  143. Bar’yakhtar V G, Bychkova N N, Seminozhenko V P Theor Math Phys 38 (2) 166 (1979)
  144. Jolos R V, Molina Kh L, Solov’ev V G Theor Math Phys 40 (2) 722 (1979)
  145. Raju R D R, Hecht K T et al Phys. Rev. C 20 (6) 2397 (1979)
  146. Zawischa D, Speth J, Pal D Nuclear Physics A 311 (3) 445 (1978)
  147. Tyapin A S Theor Math Phys 35 (3) 544 (1978)
  148. Abraham D B Commun.Math. Phys. 59 (1) 17 (1978)
  149. Ring P, Schuck P Phys. Rev. C 16 (2) 801 (1977)
  150. Hamamoto I Physics Letters B 66 (3) 222 (1977)
  151. Osman A Phys. Rev. C 16 (2) 873 (1977)
  152. Meyer W, Wong K W, Kung L-I Phys. Rev. B 15 (11) 5283 (1977)
  153. Bezuglyi E V Soviet Journal of Low Temperature Physics 2 (5) 280 (1976)
  154. Hamamoto I Nuclear Physics A 271 (1) 15 (1976)
  155. Velibekov � R Theor Math Phys 29 (3) 1147 (1976)
  156. Aurilia A Nuclear Physics B 92 (3) 241 (1975)
  157. Rasmussen J O Pure And Applied Physics Vol. Nuclear Spectroscopy and Reactions, Part DModels of Heavy Nuclei40 (1975) p. 97
  158. Dalafi H R Nuclear Physics A 252 (1) 42 (1975)
  159. Pal M K, Zawischa D, Speth J Z Physik A 272 (4) 387 (1975)
  160. Bray A J, Schmidt H Solid State Communications 17 (9) 1175 (1975)
  161. Dalafi H R, Mang H J, Ring P Z Physik A 273 (1) 47 (1975)
  162. Banerjee B, Ring P, Mang H J Nuclear Physics A 221 (3) 564 (1974)
  163. Bove A, Da Prato G, Fano G Commun.Math. Phys. 37 (3) 183 (1974)
  164. Goble G W, Kobe D H Phys. Rev. A 10 (3) 851 (1974)
  165. Goodman A L Nuclear Physics A 230 (3) 466 (1974)
  166. Krieger S J, Goeke K Nuclear Physics A 234 (2) 269 (1974)
  167. Kobe D H, Goble G W Journal of Mathematical Physics 15 (11) 1835 (1974)
  168. Cooper L N Physics Today 26 (7) 31 (1973)
  169. Birbrair B L Nuclear Physics A 212 (1) 27 (1973)
  170. Martinoli P Phys Kondens Materie 16 (1) 53 (1973)
  171. Cooper L N Science 181 (4103) 908 (1973)
  172. Goeke K, Müther H, Faessler A Nuclear Physics A 201 (1) 49 (1973)
  173. Svidzinsky A V, Antsygina T N, Bratus’ E N J Low Temp Phys 10 (1-2) 131 (1973)
  174. Banerjee B, Khadkikar S B, Devi K R S Phys. Rev. C 7 (3) 1010 (1973)
  175. Lo S C, Wong K W Nuovo Cim B 10 (2) 361 (1972)
  176. Sano M, Takemasa T, Wakai M Nuclear Physics A 190 (3) 471 (1972)
  177. Goeke K, Faessler A, Wolter H H Nuclear Physics A 183 (2) 352 (1972)
  178. Dzholos R V, Solov’ev V G Particles and Nuclei Chapter 2 (1972) p. 53
  179. Moskalenko V A, Ursu A M Theor Math Phys 13 (2) 1099 (1972)
  180. Abraham D B Stud Appl Math 51 (2) 179 (1972)
  181. Goodman A L Nuclear Physics A 186 (3) 475 (1972)
  182. Ho-Kim Q Phys. Rev. C 4 (4) 1077 (1971)
  183. Udagawa T Nuclear Physics A 164 (3) 484 (1971)
  184. Svidzinskii A V Theor Math Phys 9 (2) 1134 (1971)
  185. Solov’ev V G At Energy 30 (1) 41 (1971)
  186. Sandhya D K R, Khadkikar S B et al Physics Letters B 32 (3) 179 (1970)
  187. Botoshan N I, Moskalenko V A Theor Math Phys 2 (3) 280 (1970)
  188. Lukman B, Koller J et al Molecular Physics 18 (6) 857 (1970)
  189. Birbrair B L, Erokhina K I, Lemberg I Kh Nuclear Physics A 145 (1) 129 (1970)
  190. Žofka J Czech J Phys 20 (8) 926 (1970)
  191. Superconductivity and Quantum Fluids (1970) p. 227
  192. Kobe D H The Journal of Chemical Physics 50 (12) 5183 (1969)
  193. Satpathy L, Goss D, Banerjee M K Phys. Rev. 183 (4) 887 (1969)
  194. Kobe D H Journal of Mathematical Physics 9 (11) 1779 (1968)
  195. Baranger M, Kumar K Nuclear Physics A 110 (3) 490 (1968)
  196. Herbut F, Vujičić M Phys. Rev. 172 (4) 1031 (1968)
  197. Baranger M, Kumar K Nuclear Physics A 122 (2) 241 (1968)
  198. Kobe D H Annals Of Physics 47 (1) 15 (1968)
  199. Mikoshiba O, Sheline R K et al Nuclear Physics A 101 (1) 202 (1967)
  200. Sano M, Wakai M Nuclear Physics A 97 (2) 298 (1967)
  201. Kobe D H Journal of Mathematical Physics 8 (6) 1200 (1967)
  202. Bleuler K, Beiner M, de Tourreil R Nuov Cim B 52 (1) 45 (1967)
  203. Faessler A, Plastino A, Moszkowski S A Phys. Rev. 156 (4) 1064 (1967)
  204. BRANDOW BAIRD H Rev. Mod. Phys. 39 (4) 771 (1967)
  205. Bochnacki Z, Holban I M, Mikhailov I N Nuclear Physics A 97 (1) 33 (1967)
  206. Galasiewicz Z M Nuclear Physics 76 (1) 145 (1966)
  207. Czerwonko J Physica 32 (11-12) 1953 (1966)
  208. Kissener H -R, Münchow L Physics Letters 19 (8) 665 (1966)
  209. Rho M Nuclear Physics 75 (2) 309 (1966)
  210. Kobe D H Annals Of Physics 40 (3) 395 (1966)
  211. Marshalek E R Phys. Rev. 139 (4B) B770 (1965)
  212. Kobe D H Phys. Rev. 140 (3A) A825 (1965)
  213. Sano M, Wakai M Nuclear Physics 67 (3) 481 (1965)
  214. Kemeny G Physics Letters 14 (2) 87 (1965)
  215. Belyaev S T Nuclear Physics 64 (1) 17 (1965)
  216. Uhlenbrock D A, Zumino B Phys. Rev. 133 (2A) A350 (1964)
  217. Ichimura M Progress Of Theoretical Physics 32 (5) 757 (1964)
  218. Migdal A B Nuclear Physics 57 29 (1964)
  219. Stern H, Brout R Physica 30 (8) 1689 (1964)
  220. Thouless D J Rep. Prog. Phys. 27 (1) 53 (1964)
  221. Schmid A Physica Status Solidi (b) 7 (1) 3 (1964)
  222. Pavlichenkov I M Nuclear Physics 55 225 (1964)
  223. Anderson P W, Matthias B T Science 144 (3617) 373 (1964)
  224. Parmenter R H Phys. Rev. 132 (6) 2490 (1963)
  225. Bhagavan M R Proc. Phys. Soc. 82 (4) 605 (1963)
  226. Young W H Phys. Rev. 131 (1) 476 (1963)
  227. Urin M G, Zaretsky D F Nuclear Physics 47 97 (1963)
  228. Kerman A K, Klein A Phys. Rev. 132 (3) 1326 (1963)
  229. Galasiewicz Z Nuclear Physics 44 107 (1963)
  230. Baranger M Phys. Rev. 130 (3) 1244 (1963)
  231. Galasiewicz Z Nuclear Physics 32 140 (1962)
  232. Thouless D J, Valatin J G Nuclear Physics 31 211 (1962)
  233. Velibekov E R Physica 28 (8) 711 (1962)
  234. Anderson P W, Morel P Phys. Rev. 123 (6) 1911 (1961)
  235. Beliaev S T Nuclear Physics 24 (2) 322 (1961)
  236. Valatin J G Phys. Rev. 122 (4) 1012 (1961)
  237. Nambu Y, Jona-Lasinio G Phys. Rev. 122 (1) 345 (1961)
  238. Baranger M Phys. Rev. 122 (3) 992 (1961)
  239. Brueckner K A, Thieberger R Phys. Rev. Lett. 4 (9) 466 (1960)
  240. Thouless D J, Valatin J G Phys. Rev. Lett. 5 (11) 509 (1960)
  241. Soloviev V G Nuclear Physics 18 161 (1960)
  242. Nambu Y Phys. Rev. 117 (3) 648 (1960)
  243. Mottelson B R, Valatin J G Phys. Rev. Lett. 5 (11) 511 (1960)
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