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The European Physical Journal D

, Volume 42, Issue 2, pp 203–210 | Cite as

Generalized Kolbenstvedt model for electron impact ionization of K-, L- and M-shell atoms

  • A. K.F. Haque
  • M. A. UddinEmail author
  • M. A.R. Patoary
  • A. K. Basak
  • M. R. Talukder
  • B. C. Saha
  • K. R. Karim
  • F. B. Malik
Atomic Physics

Abstract.

The recently modified Kolbenstvedt (MKLV) model [Eur. Phys. J. D 37, 361 (2006)], developed for electron impact ionization (EII) of the K-shell atomic targets, has been extended to generalize its two parameters in terms of the electronic orbitals nl. The generalized MKLV (GKLV) with two sets of the species independent parameters for the same nl, one set for the ionization of inner orbits and another for the outermost orbit, is found profoundly successful in accounting for the EII cross section data of the K, L and M-shell neutral atoms with atomic numbers Z = 1-92 for the incident energies up to 1000 MeV in a consistent manner.

PACS.

34.80.Dp Atomic excitation and ionization by electron impact 

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References

  1. S.M. Younger, Phys. Rev. A 26, 3177 (1982) CrossRefADSGoogle Scholar
  2. S.P. Khare, J.M. Wadehra, Can. J. Phys. 74, 376 (1996) CrossRefADSGoogle Scholar
  3. J.H. Scofield, Phys. Rev. A 18, 963 (1978) CrossRefADSGoogle Scholar
  4. I. Bray, A.T. Stelbovics, Adv. At. Mol. Opt. Phys. 35, 209 (1995) Google Scholar
  5. P. Burke, K. Berrington, Atomic and molecular processes: An R-matrix Approach (IOP Publishing, Bristol, 1993) Google Scholar
  6. D.L. Moores, K.J. Reed, Adv. At. Mol. Opt. Phys. 34, 301 (1994) Google Scholar
  7. H. Deutsch, K. Becker, S. Matt, T.D. Märk, Int. J. Mass Spectrom. 197, 37 (2000) CrossRefGoogle Scholar
  8. J.J. Thomson, Philos. Mag. Lond. 23, 449 (1912) Google Scholar
  9. M. Gryzinski, Phys. Rev. 138, 336 (1965) CrossRefMathSciNetADSGoogle Scholar
  10. H. Kolbenstvedt, J. Appl. Phys. 38, 4785 (1967) CrossRefADSGoogle Scholar
  11. W. Lotz, Z. Phys. 232, 101 (1970) CrossRefADSGoogle Scholar
  12. V.A. Bernshtam, Y.V. Ralchenco, Y. Maron, J. Phys. B 33, 5025 (2000) CrossRefADSGoogle Scholar
  13. H. Deutsch, T.D. Märk, Int. J. Mass Spectrom. Ion Process 79, R1 (1987) Google Scholar
  14. H. Bethe, Ann. Phys. (Lpz) 5, 325 (1930) ADSGoogle Scholar
  15. Y.-K. Kim, M.E. Rudd, Phys. Rev. A 50, 3954 (1994) CrossRefADSGoogle Scholar
  16. N.F. Mott, Proc. R. Soc. (Lond) A 126, 259 (1930) ADSGoogle Scholar
  17. M.A. Uddin, A.K. Basak, A.K.M.A. Islam, F.B. Malik, J. Phys. B 37, 1909 (2004) CrossRefGoogle Scholar
  18. W.M. Huo, Phys. Rev. A 64, 042719 (2001) CrossRefADSGoogle Scholar
  19. M.A. Uddin, A.K.F. Haque, A.K. Basak, K.R. Karim, B.C. Saha, Phys. Rev. A 72, 032715 (2005) CrossRefADSGoogle Scholar
  20. M.A. Uddin, A.K.F. Haque, M.M. Billah, A.K. Basak, K.R. Karim, B.C. Saha, Phys. Rev. A 71, 032715 (2005) CrossRefADSGoogle Scholar
  21. M.A. Uddin, A.K.F. Haque, M.S. Mahbub, K.R. Karim, A.K. Basak, B.C. Saha, Int. J. Mass Spectrom. 244, 76 (2005) CrossRefGoogle Scholar
  22. M.A. Uddin, A.K.F. Haque, K.R. Karim, A.K. Basak, Phys. Scripta 72, 389 (2005) CrossRefADSGoogle Scholar
  23. C. Hombourger, J. Phys. B 31, 3693 (1998) CrossRefADSGoogle Scholar
  24. A.K.F. Haque, M.A. Uddin, A.K. Basak, K.R. Karim, B.C. Saha, Phys. Rev. A 73, 012708 (2006) CrossRefADSGoogle Scholar
  25. K.L. Bell, H.B. Gilbody, J.G. Hughes, A.E. Kingston, F.J. Smith, J. Phys. Chem. Ref. Data 12, 891 (1983) ADSCrossRefGoogle Scholar
  26. A.K.F. Haque, M.A. Uddin, A.K. Basak, K.R. Karim, B.C. Saha, F.B. Malik, Phys. Lett. A 354, 449 (2006) CrossRefADSGoogle Scholar
  27. A.K.F. Haque, M.A. Uddin, A.K. Basak, K.R. Karim, B.C. Saha, F.B. Malik, Phys. Rev. A 73, 052703 (2006) CrossRefADSGoogle Scholar
  28. A.K.F. Haque, M.A. Uddin, A.K. Basak, K.R. Karim, B.C. Saha, F.B. Malik, Phys. Scripta 74, 377 (2006) CrossRefADSGoogle Scholar
  29. H. Kolbenstvedt, J. Appl. Phys. 46, 2771 (1975) CrossRefADSGoogle Scholar
  30. C. Møller, Z. Phys. 70, 786 (1931) CrossRefADSzbMATHGoogle Scholar
  31. M.A. Uddin, A.K.F. Haque, K.R. Karim, A.K. Basak, F.B. Malik, Eur. Phys. J. D 37, 361 (2006) CrossRefADSGoogle Scholar
  32. J.P. Desclaux, At. Data Nucl. Data Tables 12, 325 (1973) CrossRefGoogle Scholar
  33. M.Y. Amusia, L.V. Chernysheva, Computations of Atomic Processes (Institute of Physics Publishing, Bristol, 1997) Google Scholar
  34. A.K.F. Haque, M.A. Uddin, M.A.R. Patoary, A.K. Basak, K.R. Karim, B.C. Saha, F.B. Malik, unpublished Google Scholar
  35. M.B. Shah, D.S. Elliott, H.B. Gilbody, J. Phys. B 20, 3501 (1987) CrossRefADSGoogle Scholar
  36. M.B. Shah, D.S. Elliott, P. McCallion, H.B. Gilbody, J. Phys. B 21, 2751 (1988) CrossRefADSGoogle Scholar
  37. B.L. Schram, A.J.H. Boerboom, J. Kistemaker, Physica 32, 185 (1966) CrossRefADSGoogle Scholar
  38. R. Rejoub, B.G. Lindsay, R.F. Stebbings, Phys. Rev. A 65, 042713 (2002) CrossRefADSGoogle Scholar
  39. P. Nagy, A. Skutlartz, V. Schmidt, J. Phys. B 13, 1249 (1980) CrossRefADSGoogle Scholar
  40. I.P. Zapesochnyl, I.S. Aleksakhin, Sov. Phys. JETP 28, 41 (1969) ADSGoogle Scholar
  41. R.H. McFarland, J.D. Kinney, Phys. Rev. 137, A1058 (1965) Google Scholar
  42. R. Jalin, R. Hagemann, R. Botter, J. Chem. Phys. 59, 952 (1973) CrossRefADSGoogle Scholar
  43. E. Brook, M.F.A. Harrison, A.C.H. Smith, J. Phys. B 11, 3115 (1978) CrossRefADSGoogle Scholar
  44. W.L. Fite, R.T. Brackmann, Phys. Rev. 113, 815 (1959) CrossRefADSGoogle Scholar
  45. F. Karstensen, M. Schneider, Z. Phys. A 273, 321 (1975) CrossRefADSGoogle Scholar
  46. F. Karstensen, M. Schneider, J. Phys. B 11, 167 (1978) CrossRefADSGoogle Scholar
  47. R.S. Freund, R.C. Wetzel, R.J. Shul, T.R. Hayes, Phys. Rev. A 41, 3575 (1990) CrossRefMathSciNetADSGoogle Scholar
  48. D.H.H. Hoffmann, C. Brendel, H. Genz, W. Low, S. Muller, A. Richter, Z. Phys. A 293, 187 (1979) CrossRefADSGoogle Scholar
  49. K. Ishii, M. Kamiya, K. Sera, S. Morita, H. Tawara, M. Oyamada, T.C. Chu, Phys. Rev. A 15, 906 (1977) CrossRefADSGoogle Scholar
  50. L.M. Middleman, R.L. Ford, R. Hofstadter, Phys. Rev. A 2, 1429 (1970) CrossRefADSGoogle Scholar
  51. S. Reusch, H. Genz, W. Low, A. Richer, Z. Phys. D 3, 379 (1986) CrossRefADSGoogle Scholar
  52. J. Palinkas, B. Schlenk, Z. Phys. A 297, 29 (1980) CrossRefADSGoogle Scholar
  53. H. Deutsch, K. Becker, S. Matt, T.D. Märk, Int. J. Mass Spectrom. 197, 17 (2000) Google Scholar
  54. T.-Y. Kuo, K.-N. Huang, Phys. Rev. A 64, 032710 (1995) CrossRefADSGoogle Scholar
  55. I. Bray, J. Phys. B 28, L247 (1995) Google Scholar
  56. K. Omidvar, H.L. Kyle, E.C. Sullivan, Phys. Rev. A 5, 1174 (1972) CrossRefADSGoogle Scholar

Copyright information

© EDP Sciences/Società Italiana di Fisica/Springer-Verlag 2007

Authors and Affiliations

  • A. K.F. Haque
    • 1
  • M. A. Uddin
    • 1
    Email author
  • M. A.R. Patoary
    • 1
  • A. K. Basak
    • 1
  • M. R. Talukder
    • 2
  • B. C. Saha
    • 3
  • K. R. Karim
    • 4
  • F. B. Malik
    • 5
    • 6
  1. 1.Department of PhysicsUniversity of RajshahiRajshahiBangladesh
  2. 2.Department of Applied Physics & Electronic EngineeringUniversity of RajshahiRajshahiBangladesh
  3. 3.Department of PhysicsFlorida A&M UniversityTallahasseeUSA
  4. 4.Department of Physics, Department of PhysicsIllinois State UniversityNormalUSA
  5. 5.Department of PhysicsSouthern Illinois UniversityCarbondaleUSA
  6. 6.Department of PhysicsWashington UniversitySt. LouisUSA

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