Abstract
A consistent relativistic energy approach to the calculation of probabilities of cooperative electron-gamma-nuclear processes is developed. The nuclear excitation by electron transition (NEET) effect is studied. The NEET process probability and cross section are determined within the S-matrix Gell-Mann and Low formalism (energy approach) combined with the relativistic many-body perturbation theory (PT). Summary of the experimental and theoretical works on the NEET effect is presented. The calculation results of the NEET probabilities for the \( {}_{{76}}^{{189}}{\text{Os}} \), \( {}_{{77}}^{{193}}{\text{Ir}} \), and \( {}_{{79}}^{{197}}{\text{Au}} \) atoms are presented and compared with available experimental and alternative theoretical data. The theoretical and experimental study of the cooperative electron-gamma-nuclear process such as the NEET effect is expected to allow the determination of nuclear transition energies and the study of atomic vacancy effects on nuclear lifetime and population mechanisms of excited nuclear levels.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
References
Letokhov VS, Goldanskii VI (1974) JETP 67:513; Goldanskii VI, Namiot VA (1976) Phys Lett 62B:393; Baldwin GG, Salem JC, Goldanskii VI (1981) Rev Mod Phys 53:687
Basov NG, Letokhov VS (1969) Sov Phys-Uspekhi 11:855; Letokhov VS (1979) In: Prokhorov AM, Letokhov VS (eds) Application of lasers in atomic, molecular and nuclear physics. Nauka, Moscow, p 412
Shahbaz A, Müller C, Bürvenich TJ, Keitel CH (2009) Nucl Phys A 821:106; Müller C, Di Piazza A, Shahbaz A, Bürvenich TJ, Evers J, Hatsagortsyan HZ, Keitel CH (2008) Laser Phys 11:175; Shahbaz A, Müller C, Staudt A, Burnevich TJ, Keitel CH (2007) Phys Rev Lett 98:263901
Burnevich TJ, Evers J, Keitel CH (2006) Phys Rev C 74:044601; (2006) Phys Rev Lett 96:142501
Ivanov LN, Letokhov VS (1975) JETP 68:1748; Ivanov LN, Letokhov VS (1985) Com Mod Phys D 4:169; Glushkov AV, Ivanov LN, Letokhov VS (1991) Preprint of Institute for Spectroscopy of USSR Academy of Sciences (ISAN), N AS-5, Troitsk
Migdal AB (1941) J Phys USSR 4:449; Levinger JS (1953) Phys Rev 90:11
Mössbauer RM (1958) Z Phys A: Hadrons Nucl 151;124; Szilard L, Chalmers T (1934) Nature (London) 134:462
Cioccheti G, Molinari A (1965) Nuovo Cim 40:69; Carlson Th, Nestor CW, Tucker TC, Malik FB (1968) Phys Rev 169:27; Kaplan IG, Smutny VN (1988) Adv Quantum Chem 19:289; Kaplan IG (1997) J Phys G: Nucl Part Phys 23:683
Amudsen P, Barker PH (1994) Phys Rev C 50:2466; Anholt R, Amundsen P (1982) Phys Rev A 25:169
Wolfgang RL, Anderson R, Dodson RW (1956) J Chem Phys 24:16; Martin Rl, Cohen JS (1985) Phys Lett A 110:95
Hansen JS (1974) Phys Rev A 9:40; Law J (1977) Nucl Phys A 286:339; (1980) Can J Phys 58:504; Law J, Campbell JL (1982) Phys Rev C 25:514
Mukoyama T, Ito Sh (1988) Phys Lett A 131:182; Mukoyama T, Shimizu S (1978) J Phys G: Nucl Part 4:1509
Kienle P (1993) Phys Scripta 46:,81; Wauters L, Vaeck N (1996) Phys Rev C 53:497; Wauters L, Vaeck N, Godefroid M, van der Hart H, Demeur M (1997) J Phys B 30:4569
Olariu S, Sinor T, Collins C (1994) Phys Rev B 50:616; Glushkov AV, Ivanov LN (1991) Preprint of Institute for Spectroscopy of USSR Academy of Sciences (ISAN), N-2AS; Glushkov AV, Svinarenko A (2010) Sensor Electr Microsyst Technol 1:13
Romanovsky M (1998) Laser Phys 1:17; Harston MR, Caroll JJ (2004) Laser Phys 7:1452; Harston MR, Chemin JF (1999) Phys Rev C 59:2462
Glushkov AV, Khetselius OYu, Malinovskaya SV (2008). In: Wilson S, Grout PJ, Maruani J, Delgado-Barrio G, Piecuch P (eds) Frontiers in quantum systems in chemistry and physics. Progress in theoretical chemistry and physics, vol 18, Springer, Berlin, p 523; (2008) Eur Phys J ST 160:195; (2008) Mol Phys 106:1257
Glushkov AV, Khetselius OY, Lovett L (2010) In: Piecuch P, Maruani J, Delgado-Barrio G, Wilson S (eds) Advances in the theory of atomic and molecular systems dynamics, spectroscopy, clusters, and nanostructures, vol 20, Progress in theoretical chemistry and physics. Springer, Berlin, pp 125–172
Glushkov AV, Khetselius OY, Svinarenko AA (2012) In: Hoggan, Brandas E, Delgado-Barrio G, Piecuch P (eds) Advances in the Theory of Quantum Systems in Chemistry and Physics, vol 22, Progress in theoretical chemistry and physics. Springer, Berlin, pp 51–70
Morita M (1973) Progr Theor Phys 49:1574; Letokhov VS (1973) Science 180:451
Okamoto K (1980) Nucl Phys A 341:75; Cue N, Poizat J-C, Remillieux J (1989) Europhys Lett 8:19; Kimball JC, Bittel D, Cue N (1991) Phys Lett A 152:367; Yuan Z-S,Kimball JC (1993) Phys Rev C 47:323; Palffy A, Scheid W, Harman Z (2006) Phys Rev A 73:012715
Kishimoto S, Yoda Y, Seto M, Kobayashi Y, Kitao S, Haruki R, Kawauchi T, Fukutani K, Okano T (2000) Phys Rev Lett 85:1831; Kishimoto S, Yoda Y, Kobayashi Y, Kitao S, HarukiR, Seto M (2005) Nucl Phys A 748:3; Kishimoto S, Yoda Y, Kobayashi Y, Kitao S, Haruki R, Masuda R, Seto M (2006) Phys Rev C 74:031301
Ahmad I, Dunfird R, Esbensen H, Gemmell DS, Kanter EP, Run U, Siuthwirth SH (2000) Phys Rev C 61:051304; Saito T, Shinohara A, Miura T, Otozai K (1981) J Inorg Nucl Chem 43:1963; Shinohara A, Saito T, Shoji M, Yokoyama A, Baba H, Ando M, Taniguchi K (1987) Nucl Phys A 472:151; Morel P, Daugas JM, Gosselin G, Méot V, Gogny D (2004) Nucl Phys A 746:608
Tkalya EV (1992) Nucl Phys A 539:209; (2005) Phys Uspekhi 48:525; (2007) Phys Rev A 75:022509; Pisk K, Kaliman Z, Logan BA (1989) Nucl Phys A 504:103; Ljubičić A, Kekez D, Logan BA (1991) Phys Lett B 272:1
L.N. Ivanov, E.P. Ivanova, L. Knight, Phys. Rev. A 48, 4365 (1993); E.P. Ivanova, L.N. Ivanov, E.V. Aglitsky, Phys. Rep. 166, 315 (1988); E.P. Ivanova, L.N. Ivanov, JETP 83, 258 (1996); E.P. Ivanova, I.P. Grant, J. Phys. B 31, 2871 (1998).
Ivanova EP, Ivanov LN, Glushkov AV, Kramida A (1985) Phys Scripta 32:512; Glushkov AV, Ivanova EP (1986) J Quant Spectrosc Rad Transfer 36:127
Glushkov AV, Ivanov LN, Ivanova EP (1986) Autoionization phenomena in atoms. Moscow University Press, Moscow; Glushkov AV, Ivanov LN (1992) Phys Lett A 170:33; Glushkov AV (1992) JETP Lett 55:97; (2008) Relativistic quantum theory. In: Quantum mechanics of atomic systems. Astroprint, Odessa
Glushkov AV, Khetselius OYu, Loboda AV, Svinarenko AA (2008). In: Wilson S, Grout PJ, Maruani J, Delgado-Barrio G, Piecuch P (eds) Frontiers in quantum systems in chemistry and physics, progress in theoretical chemistry and physics, vol 18. Springer, Berlin, p 541; Glushkov AV, Loboda AV, Gurnitskaya EP, Svinarenko AA (2009) Phys Scripta T 135:014022
Glushkov AV, Khetselius OY, Gurnitskaya EP, Loboda AV, Florko TA, Sukharev DE, Lovett L (2008) In: Wilson S, Grout PJ, Maruani J, Delgado-Barrio G, Piecuch P (eds) Frontiers in quantum systems in chemistry and physics, vol 18, Progress in theoretical chemistry and physics. Springer, Berlin, p 505
Glushkov AV, Ambrosov SV, Khetselius OYu, Loboda AV, Chernyakova YuG, Svinarenko AA (2004) Nucl Phys A 734S:21; Glushkov AV, Ambrosov SV, Khetselius OYu, Loboda AV, Gurnitskaya EP (2006). In: Julien J-P, Maruani J, Mayou D, Wilson S, Delgado-Barrio G (eds) Recent advances in theoretical physics and chemistry systems. Progress in theoretical chemistry and physics, vol 15. Springer, Berlin, p 285
Khetselius OYu (2009) Int J Quant Chem 109:3330; (2009) Phys Scripta T 135:014023
Glushkov AV, Ambrosov SV, Loboda AV, Prepelitsa GP, Gurnitskaya EP (2005) Int J Quant Chem 104:562; Glushkov AV, Malinovskaya SV, Khetselius OYu, Dubrovskaya YuV, Gurnitskaya EP (2006) J Phys CS 35:425; Malinovskaya SV, Glushkov AV, Khetselius OYu, Svinarenko AA, Loboda AV, Lopatkin YuM, Nikola LV (2011) Int J Quant Chem 111:288
Dmitriev YY, Klimchitskaya GL, Labzovsky LN (1984) Relativistic effects in spectra of atomic systems. Energoatomizd, Moscow
Firestone FB (1990) Nucl Data Sheets 59:869; Artna-Cohen A (1998) Nucl Data Sheets 83:921; Wu SC, Niu H (2003) Nucl Data Sheets 100:1; Xiaolong H, Chunmei Z (2006) Nucl Data Sheets 104:283
Bohr O, Motelsson B (1971) Structure of atomic nucleus. Plenum, New York; Ring P, Schuck P (2000) The nuclear many-body problem. Springer, Heidelberg
Yang F, Hamilton JH (eds) (2010) Fundamentals of nuclear models. World Science, Singapore; Eisenberg JM, Greiner W (1970) Nuclear models. North-Holland, Amsterdam
Serot B, Walecka J (1986) Adv Nucl Phys 16:1; Bender M, Heenen P, Reinhard P (2003) Rev Mod Phys 75:121; Bloumkvist J, Wahlborn S (1960) Ark Fysic 16:545
Glushkov AV (2007). In: Krewald S, Machner H (eds) Meson-nucleon physics and the structure of the nucleon. IKP, Juelich, Germany, SLAC eConference C070910. Menlo Park, CA, USA, vol 2, p 111; Glushkov AV, Khetselius OYu, Loboda AV, Malinovskaya SV (2007) ibid. 2:118; Glushkov A, Lovett L, Khetselius O, Loboda A, Dubrovskaya Yu, Gurnitskaya E (2009) Int J Modern Phys A Part Fields Nucl Phys 24:611
Acknowledgments
The author is very much thankful to Prof. K. Nishikawa for his invitation to present this work at the QSCP-XVI workshop (Japan). The support of the University of Freiburg (Germany) and of A. Salam ICTP Centre (Trieste, Italy) is acknowledged. The comments of the anonymous referees are very much appreciated too.
Author information
Authors and Affiliations
Corresponding author
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2012 Springer Science+Business Media Dordrecht
About this paper
Cite this paper
Khetselius, O.Y. (2012). Relativistic Energy Approach to Cooperative Electron-γ-Nuclear Processes: NEET Effect. In: Nishikawa, K., Maruani, J., Brändas, E., Delgado-Barrio, G., Piecuch, P. (eds) Quantum Systems in Chemistry and Physics. Progress in Theoretical Chemistry and Physics, vol 26. Springer, Dordrecht. https://doi.org/10.1007/978-94-007-5297-9_11
Download citation
DOI: https://doi.org/10.1007/978-94-007-5297-9_11
Published:
Publisher Name: Springer, Dordrecht
Print ISBN: 978-94-007-5296-2
Online ISBN: 978-94-007-5297-9
eBook Packages: Chemistry and Materials ScienceChemistry and Material Science (R0)