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Issue 4, 2024
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Reviews of topical problems


Atomic processes involving highly charged ions

 ,  
Lebedev Physical Institute, Russian Academy of Sciences, Leninsky prosp. 53, Moscow, 119991, Russian Federation

Atomic processes of ionization, recombination, and electron capture in collisions of positive ions with atoms, ions, electrons, and molecules are considered. The impact of these processes on the interaction of ion beams with media in a wide range of energies — from low to super-relativistic — is discussed, focusing primarily on energies E~10 keV—100 GeV per nucleon. The main features of the effective cross sections of the processes are described as a function of the collision energy, atomic structure, and density effects in gases, solids, and plasmas. The role of dielectronic recombination in the interaction of beams of heavy multi-electron ions with a plasma is considered in detail. The progress in experimental and theoretical studies in accelerator physics and the physics of collisions of heavy ions with atomic systems, achieved over the last five to ten years is reviewed.

Fulltext pdf (1.4 MB)
Fulltext is also available at DOI: 10.3367/UFNe.2022.12.039289
Keywords: effective cross sections and rates of atomic processes, charge exchange, ionization, dielectronic recombination, interaction of ion beams with gases, plasma, and foils, ion beam lifetime
PACS: 34.10.+x, 34.50.Fa, 34.70.+e (all)
DOI: 10.3367/UFNe.2022.12.039289
URL: https://ufn.ru/en/articles/2023/12/a/
001172931200002
2-s2.0-85183017986
2023PhyU...66.1177T
Citation: Tolstikhina I Yu, Shevelko V P "Atomic processes involving highly charged ions" Phys. Usp. 66 1177–1210 (2023)
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Received: 9th, November 2022, revised: 5th, December 2022, 8th, December 2022

Оригинал: Толстихина И Ю, Шевелько В П «Атомные процессы с участием многозарядных ионов» УФН 193 1249–1283 (2023); DOI: 10.3367/UFNr.2022.12.039289

References (184) ↓ Similar articles (20)

  1. Tolstikhina I Yu, Shevelko V P Phys. Usp. 56 213 (2013); Tolstikhina I Yu, Shevelko V P Usp. Fiz. Nauk 183 225 (2013)
  2. Tolstikhina I Yu, Shevelko V P Phys. Usp. 61 247 (2018); Tolstikhina I Yu, Shevelko V P Usp. Fiz. Nauk 188 267 (2018)
  3. Tolstikhina I, Imai M, Winckler N, Shevelko V Basic Atomic Interactions Of Accelerated Heavy Ions In Matter: Atomic Interactions Of Heavy Ions (Springer Ser. on Atomic, Optical, and Plasma Physics) Vol. 98 (Cham: Springer Intern. Publ., 2018)
  4. Sobelman I I, Vainshtein L A, Yukov E A Excitation Of Atoms And Broadening Of Spectral Lines (Berlin: Springer-Verlag, 1981); Translated from Russian, Sobelman I I, Vainshtein L A, Yukov E A Vozbuzhdenie Atomov I Ushirenie Spektral’nykh Linii (Moscow: Nauka, 1979)
  5. Janev R K, Presnyakov L P, Shevelko V P Physics Of Highly Charged Ions (Springer Series in Electrophysics) Vol. 13 (Berlin: Springer-Verlag, 1985); Translated into Russian, Janev R K, Presnyakov L P, Shevelko V P Elementarnye Protsessy S Uchastiem Mnogozaryadnykh Ionov (Moscow: Energoatomizdat, 1986)
  6. Solov’ev E A Novye Podkhody V Kvantovoi Fizike (New Approaches In Quantum Physics) (Moscow: Fizmatlit, 2019)
  7. Steck M, Litvinov Yu A Prog. Part. Nucl. Phys. 115 103811 (2020)
  8. Paul N et al Phys. Rev. Lett. 126 173001 (2021)
  9. Ma X et al Chinese Phys. B 31 093401 (2022)
  10. Sigmund P Particle Penetration And Radiation Effects Vol. 2 Penetration Of Atomic And Molecular Ions (Springer Ser. in Solid-State Sciences) Vol. 179 (Cham: Springer, 2014)
  11. Rosmej F B, Astapenko V A, Lisitsa V S Plasma Atomic Physics (Springer Ser. on Atomic, Optical, and Plasma Physics) Vol. 104 (Cham: Springer, 2021)
  12. Dikanskii N S et al Phys. Usp. 61 424 (2018); Dikanskii N S et al Usp. Fiz. Nauk 188 481 (2018)
  13. Shevelko V P, Winckler N, Tolstikhina I Yu Phys. Rev. A 101 012704 (2020)
  14. Budker D et al Ann. Physik 534 2100284 (2022)
  15. Oganessian Yu Ts, Utyonkov V K Rep. Prog. Phys. 78 036301 (2015)
  16. Yamaguchi Y et al Prog. Part. Nucl. Phys. 120 103882 (2021)
  17. Schardt D, Elsässer Th, Schulz-Ertner D Rev. Mod. Phys. 82 383 (2010)
  18. Trautmann C Ion Beams In Nanoscience And Technology (Eds R Hellborg, H J Whitlow, Y Zhang) (Heidelberg: Springer-Verlag, 2009)
  19. Nuclotron-based Ion Collider fAcility, NICA, http://nica.jinr.ru/
  20. Kekelidze V D et al Eur. Phys. J. A 52 211 (2016)
  21. Kozlov O S et al Phys. Part. Nucl. 53 1021 (2022); Kozlov O S et al Fiz. Elem. Chast. At. Yad. 53 1220 (2022)
  22. Placzek W et al Acta Phys. Polon. B 50 1191 (2019)
  23. Henning W F (Ed.) "International Accelerator Facility for Beams of Ions and Antiprotons", GSI-Darmstadt, November 2001, http://www.fair-center.de/fileadmin/fair/publicationsFAIR/FAIR-CDR.pdf
  24. Shevelko V, Tawara H Atomic Multielectron Processes (Berlin: Springer, 1998)
  25. Matsuo T et al Phys. Rev. A 50 1178 (1986)
  26. Eichler J, Meyerhof W E Relativistic Atomic Collisions (San Diego, CA: Academic Press, 1995)
  27. Eichler J, Stöhlker T Phys. Rep. 439 1 (2007)
  28. Müller A Adv. Atom. Mol. Opt. Phys. 55 293 (2008)
  29. Poth H Phys. Rep. 196 135 (1990)
  30. Bates D R, Moffett R J Nature 205 272 (1965)
  31. Raizer Yu P Gas Discharge Physics (Berlin: Springer, 1997); Translated from Russian, Raizer Yu P Fizika Gazovogo Razryada (Moscow: Nauka, 1992)
  32. Beigman I L, Vainshtein L A, Syunyaev R A Sov. Phys. Usp. 11 411 (1968); Beigman I L, Vainshtein L A, Syunyaev R A Usp. Fiz. Nauk 95 269 (1968)
  33. Melchert F "Charge changing processes in ion-ion collisions" Atomic Physics With Heavy Ions (Springer Ser. on Atoms + Plasmas) Vol. 26 (Eds H Beyer, V P Shevelko) (Berlin: Springer, 1999)
  34. Shevelko V P et al Nucl. Instrum. Meth. Phys. Res. B 269 1455 (2011)
  35. Tolstikhina I Yu et al J. Exp. Theor. Phys. 119 1 (2014); Tolstikhina I Yu et al Zh. Eksp. Teor. Fiz. 146 5 (2014)
  36. Rashid K, Saadi M Z, Yasin M Atom. Data Nucl. Data Tabl. 40 365 (1988)
  37. Lotz W J. Opt. Soc. Am. 58 915 (1968); Lotz W J. Opt. Soc. Am. 60 206 (1970)
  38. Erb W GSI Report P-7-78 (Darmstadt: GSI, 1978)
  39. Perumal A N et al Nucl. Instrum. Meth. Phys. Res. B 227 251 (2005)
  40. Shevelko V P et al Nucl. Instrum. Meth. Phys. Res. B 278 63 (2012)
  41. Shevelko V P et al J. Phys. B 43 215202 (2010)
  42. Litsarev M S Comput. Phys. Commun. 184 432 (2013)
  43. Olson R E et al J. Phys. B 37 4539 (2004)
  44. Weber G et al Phys. Rev. ST Accel. Beams 18 034403 (2015)
  45. Anholt R, Becker U Phys. Rev. A 36 4628 (1987)
  46. Scheidenberger C et al Nucl. Instrum. Meth. Phys. Res. B 142 441 (1998)
  47. Anholt R Phys. Rev. A 19 1004 (1979)
  48. Anholt R et al Phys. Rev. A 36 1586 (1987)
  49. Bertulani C A, Baur G Phys. Rep. 163 299 (1988)
  50. Voitkiv A B Phys. Rep. 392 191 (2004)
  51. Voitkiv A, Ullrich J Relativistic Collisions Of Structured Atomic Particles (Springer Series on Atomic, Optical, and Plasma Physics) (Berlin: Springer, 2008)
  52. Baur G et al Phys. Rev. A 80 012713 (2009)
  53. Geissel H et al Nucl. Instrum. Meth. Phys. Res. B 195 3 (2002)
  54. Dutheil Y et al "Gamma Factory for CERN initiatives — progress report" European Physical Society Conf. on High Energy Physics EPS-HEP2019, 10-17 July, 2019, Ghent, Belgium; Dutheil Y et al PoS EPS-HEP2019 020 (2019)
  55. Mueller D et al Phys. Plasmas 8 1753 (2001)
  56. Watson R L et al Phys. Rev. A 67 022706 (2003)
  57. Olson R E et al J. Phys. B 37 4539 (2004)
  58. Olson R E, Ullrich J, Schmidt-Böcking H Phys. Rev. A 39 5572 (1989)
  59. Olson R E Atomic, Molecular, And Optical Physics Handbook (Ed. G W F Drake) (Woodbury, NY: AIP Press, 1996) p. 869
  60. Lo H H, Tite W L Atom. Data 1 305 (1969)
  61. Firsov O B Sov. Phys. JETP 9 1076 (1959); Firsov O B Zh. Eksp. Teor. Fiz. 36 1517 (1959)
  62. Kunc J A, Soon W H J. Chem. Phys. 95 5738 (1991)
  63. Shevelko V P et al J. Phys. B 42 065202 (2009)
  64. Franzke B IEEE Trans. Nucl. Sci. 28 2116 (1981)
  65. DuBois R D et al Phys. Rev. A 70 032712 (2004)
  66. Smolyakov A, Spiller P Internal Note ACC-note-internal-2006-001 (Darmstadt: GSI, 2006)
  67. Klinger H, Muller A, Salzborn E J. Phys. B 8 230 (1975)
  68. Ryufuku H, Watanabe T Phys. Rev. A 19 1538 (1979)
  69. Presnyakov L P, Ulantsev A D Sov. J. Quantum Electron. 4 1320 (1975); Presnyakov L P, Ulantsev A D Kvant. Elektron. 1 3277 (1074)
  70. Chibisov M I JETP Lett. 24 46 (1976); Chibisov M I Pis’ma Zh. Eksp. Teor. Fiz. 24 56 (1976)
  71. Shevelko V P et al J. Phys. B 37 201 (2004)
  72. Schlachter A S et al Phys. Rev. A 27 3372 (1983)
  73. Fermi E Phys. Rev. 57 485 (1940)
  74. Lassen N O Kgl. Danske Vidensk. Selskab. Mat.-Fyz. Medd. 26 (12) (1951)
  75. Bohr N, Lindhard J Kgl. Danske Vidensk. Selskab. Mat.-Fyz. Medd. 28 (7) (1954)
  76. Betz H D, Grodzins L Phys. Rev. Lett. 25 211 (1970)
  77. Geissel H et al Nucl. Instrum. Meth. Phys. Res. 194 21 (1982)
  78. Basko M M Sov. J. Plasma Phys. 10 689 (1984); Basko M M Fiz. Plazmy 10 1195 (1984)
  79. Val H et al Kratk. Soobshch. Fiz. Inst. Akad. Nauk (8) 28 (2001)
  80. Shevelko V P et al J. Phys. B 38 525 (2005)
  81. Ogawa H et al Phys. Rev. A 75 020703 (2007)
  82. Shevelko V P, Winckler N, Tolstikhina I Yu Nucl. Instrum. Meth. Phys. Res. B 377 77 (2016)
  83. Barat M, Roncin P J. Phys. B 25 2205 (1992)
  84. Klinger H, Muller A, Salzborn E J. Phys. B 8 230 (1975)
  85. Müller A, Salzborn E Phys. Lett. A 62 391 (1977)
  86. Bárány A et al Nucl. Instrum. Meth. Phys. Res. B 9 397 (1985)
  87. Hansen J P, Taulbjerg K Phys. Rev. A 45 R4214 (1992)
  88. Mann R Z. Phys. D 3 85 (1986)
  89. Sidorovich V A, Nikolaev V S, McGuire J H Phys. Rev. A 31 2193 (1985)
  90. Cederquist H et al Phys. Scr. 1999 (T80A) 46 (1999)
  91. Stöhlker Th et al Phys. Rev. A 51 2098 (1995)
  92. Scheidenberger C et al Nucl. Instrum. Meth. Phys. Res. B 90 36 (1994)
  93. Fettouhi A et al Nucl. Instrum. Meth. Phys. Res. B 245 32 (2006)
  94. Eichler J Phys. Rev. A 32 112 (1985)
  95. Meyerhof W E et al Phys. Rev. A 32 3291 (1985)
  96. Kramers H A Philos. Mag. 46 836 (1923)
  97. Ichihara A, Eichler J Atom. Data Nucl. Data Tabl. 74 1 (2000)
  98. Kröger F M et al Phys. Rev. A 102 042825 (2020)
  99. Stobbe M Ann. Physik 399 661 (1930)
  100. Stöhlker Th et al AIP Conf. Proc. 506 389 (2000)
  101. Fritzsche S, Surzhykov A, Stöhlker Th Phys. Rev. A 72 012704 (2005)
  102. Meng L, Reinhold C O, Olson R E Phys. Rev. A 40 3637 (1989)
  103. Watson R L et al Phys. Rev. A 67 022706 (2003)
  104. Knudsen H, Haugen H K, Hvelplund P Phys. Rev. A 24 2287 (1981)
  105. Nakai Y et al Phys. Scr. 1989 (T28) 77 (1989)
  106. Meyer F W et al Phys. Rev. A 19 515 (1979)
  107. Bohr N, Lindhard J Kgl. Danske Vidensk. Selskab. Mat.-Fyz. Medd. 28 1 (1954)
  108. Olson R E, Salop A Phys. Rev. A 14 579 (1976)
  109. Bottcher C Coherence And Correlations In Atomic Collisions (Eds H Kleinpoppen, J F Williams) (New York: Plenum Press, 1980)
  110. Bozyk L et al Nucl. Instrum. Meth. Phys. Res. B 372 102 (2016)
  111. Krasny M W "The Gamma Factory proposal for CERN" arXiv:1511.07794
  112. Hirlaender S et al Proc. of the 9th Intern. Particle Accelerator Conf., IPAC2018, April 29-May 4, 2018, Vancouver, BC, Canada (Geneva: JACoW, 2018), THPMF015; http://jacow.org/ipac2018/papers/thpmf015.pdf
  113. Placzek W et al Acta Phys. Polon. B 50 1191 (2019)
  114. Schaumann M et al J. Phys. Conf. Ser. 1350 012071 (2019)
  115. Tolstikhina I Yu, Shevelko V P "Beam-gas collisions at SPS and LHC" Report, March 25, 2019 (Geneva: CERN, 2019)
  116. Kersevan R et al "PSI collisions with residual gas in the SPS and LHC storage rings at CERN", May 2019, unpublished
  117. Sidorin A O, Trubnikov G V, Shurkhno N A Phys. Usp. 59 264 (2016); Sidorin A O, Trubnikov G V, Shurkhno N A Usp. Fiz. Nauk 186 275 (2016)
  118. Butenko A V JETP Lett. 113 752 (2021); Butenko A V Pis’ma Zh. Eksp. Teor. Fiz. 113 784 (2021)
  119. Shevelko V P et al Nucl. Instrum. Meth. Phys. Res. B 421 45 (2018)
  120. Budker G I, Skrinskii A N Sov. Phys. Usp. 21 277 (1978); Budker G I, Skrinskii A N Usp. Fiz. Nauk 124 561 (1978)
  121. Parkhomchuk V V, Skrinskii A N Phys. Usp. 43 433 (2000); Parkhomchuk V V, Skrinskii A N Usp. Fiz. Nauk 170 473 (2000)
  122. Shi W et al Eur. Phys. J. D 15 145 (2001)
  123. Budker G I Sov. Atom. Energy 22 438 (1967); Budker G I Atom. Energ. 22 346 (1967)
  124. Grieser M "The Heavy Ion Storage Ring TSR" talk at 64th ISCC Meeting, CERN, July 3, 2012
  125. Grieser M et al Eur. Phys. J. Spec. Top. 207 1 (2012)
  126. Philippov A V, Kuznetsov A B, Meshkov I N Proc. Workshop on Beam Cooling and Related Topics, COOL’11, September 12-16, 2011, Alushta (Dubna: JINR, 2011) p. 48
  127. Krantz C et al Phys. Rev. Accel. Beams 24 050101 (2021)
  128. Schippers S et al Phys. Scr. 2011 (T144) 014039 (2011)
  129. Gao H et al Hyperfine Interact. 99 301 (1996)
  130. Lotz W Z. Phys. 220 466 (1969)
  131. Beigman I L, Shevelko V P, Tawara H Phys. Scr. 53 534 (1996)
  132. Schury D et al J. Phys. Conf. Ser. 1412 152011 (2020)
  133. Müller A "Ion formation processes: ionizationion-electron collisions" Physics Of Ion Impact Phenomena (Springer Ser. in Chemical Physics, CHEMICAL) Vol. 5 (Ed. D Mathur) (Berlin: Springer, 1991) p. 13
  134. LaGattuta K J, Hahn Y Phys. Rev. A 24 2273 (1981)
  135. Henry R J W, Msezane A Z Phys. Rev. A 26 2545 (1982)
  136. Müller A et al Phys. Rev. Lett. 61 70 (1988)
  137. Müller A et al Nucl. Instrum. Meth. Phys. Res. B 10-11 204 (1985)
  138. Defrance P Atomic And Molecular Processes In Fusion Edge Plasmas (Ed. R K Janev) (New York: Plenum Press, 1995) p. 153
  139. Deutsch H, Becker K, Märk T D Contrib. Plasma Phys. 35 421 (1995)
  140. Fisher V et al J. Phys. B 28 3027 (1995)
  141. Shevelko V P, Tawara H J. Phys. B 28 L589 (1995)
  142. Bélenger C et al J. Phys. B 30 2667 (1997)
  143. Hahn M, Müller A, Savin D W Astrophys. J. 850 122 (2017)
  144. Andreev G I, Bychkov V L, Shevelko V P JETP Lett. 117 435 (2023); Andreev G I, Bychkov V L, Shevelko V P Pis’ma Zh. Eksp. Teor. Fiz. 117 428 (2023)
  145. Shevelko V P, Tawara H, Salzborn E "Multiple-ionization cross sections of atoms and ions by electron impact" Preprint NIFS-DATA-27 (Nagoya, Japan: Research Information Center, National Institute for Fusion Science, 1995); https://www.nifs.ac.jp/report/NIFS-DATA-027.pdf
  146. Shevelko V P et al J. Phys. B 38 525 (2005)
  147. Shevelko V P et al J. Phys. B 39 1499 (2006)
  148. Stenke M et al J. Phys. B 32 3641 (1999)
  149. Mokler P H, Stöhlker Th Adv. Atom. Mol. Opt. Phys. 37 297 (1996)
  150. Carlson T A et al Atom. Data 2 63 (1970)
  151. Gao H et al J. Phys. B 30 L499 (1997)
  152. Badnell N R Astrophys. J. 379 356 (1991)
  153. Tolstikhina I Yu et al J. Quant. Spectrosc. Radiat. Transf. 246 106944 (2020)
  154. Gurevich A V, Pitaevskii L P Sov. Phys. JETP 19 870 (1964); Gurevich A V, Pitaevskii L P Zh. Eksp. Teor. Fiz. 46 1281 (1964)
  155. Zel’dovich Ya B, Raizer Yu P Physics Of Shock Waves And High-Temperature Hydrodynamic Phenomena (New York: Academic Press, 1966, 1967); Translated from Russian, Zel’dovich Ya B, Raizer Yu P Fizika Udarnykh Voln I Vysokotemperaturnykh Gidrodinamicheskikh Yavlenii (Moscow: Nauka, 1966)
  156. Peter Th, Meyer-ter-Vehn J Phys. Rev. A 43 2015 (1991)
  157. Blaum K, Eliseev S, Sturm S Quantum Sci. Technol. 6 014002 (2021)
  158. Oganessian Yu Ts Pure Appl. Chem. 76 1715 (2004)
  159. Betz H-D Rev. Mod. Phys. 44 465 (1972)
  160. Winckler N et al Nucl. Instrum. Meth. Phys. Res. B 392 67 (2017)
  161. Shevelko V P, Andreev S N, Tolstikhina I Yu Nucl. Instrum. Meth. Phys. Res. B 502 37 (2021)
  162. Shevelko V P, Winckler N, Tolstikhina I Yu Nucl. Instrum. Meth. Phys. Res. B 479 23 (2020)
  163. Imai M, Tolstikhina I Yu, Shevelko V P Nucl. Instrum. Meth. Phys. Res. B 520 13 (2022)
  164. Betz H D "Heavy ion charge states" Applied Atomic Collision Physics Vol. 4 Condensed Matter (Ed. S Datz) (New York: Academic Press, 1983)
  165. Thieberger P et al IEEE Trans. Nucl. Sci. 32 1767 (1985)
  166. Weick H "Programs to predict charge-state distributions of swift heavy ions" https://web-docs.gsi.de/~weick/charge_states/
  167. The program LISE, http://lise.nscl.msu.edu/lise.html
  168. Rozet J P, Stéphan C, Vernhet D Nucl. Instrum. Meth. Phys. Res. B 107 67 (1996)
  169. Lamour E et al Phys. Rev. A 92 042703 (2015)
  170. Allison S K Rev. Mod. Phys. 30 1137 (1958)
  171. Frank A et al Phys. Rev. Lett. 110 115001 (2013)
  172. Jacoby J et al Phys. Rev. Lett. 74 1550 (1995)
  173. Morales R Phys. Plasmas 29 093112 (2022)
  174. Gu M F Can. J. Phys. 86 675 (2008)
  175. Bauche-Arnoult C, Bauche J, Klapisch M Phys. Rev. A 20 2424 (1979); Bauche-Arnoult C, Bauche J, Klapisch M Phys. Rev. A 25 2641 (1982)
  176. Safronova U I et al Phys. Scr. 73 143 (2006)
  177. Altun Z et al Astron. Astrophys. 420 775 (2004)
  178. Cowan R D The Theory Of Atomic Structure And Spectra Vol. 3 (Berkeley, CA: Univ. of California Press, 1992)
  179. Badnell N R J. Phys. B 19 3827 (1986)
  180. Kwon D-H, Lee W J. Quant. Spectrosc. Radiat. Transf. 179 98 (2016)
  181. Sasaki A, Murakami I J. Phys. B 46 175701 (2013)
  182. Wu Z et al Atoms 3 474 (2015)
  183. Klapisch M Comput. Phys. Commun. 2 239 (1971)
  184. Tolstikhina I Yu, Imai M, Shevelko V P Nucl. Instrum. Meth. Phys. Res. B 532 27 (2022)
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