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Ion-phonon Interactions

  • B. Z. Malkin
Chapter
Part of the Springer Series in Materials Science book series (SSMATERIALS, volume 83)

Keywords

Crystal Field Nonradiative Transition Crystal Field Parameter Lower Sublevel Exchange Charge Model 
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References

  1. Abragam, A. The Principles of Nuclear Magnetism (Clarendon Press, Oxford, 1961), ch. VIII.Google Scholar
  2. Abramov, A. P., I. N. Abramova, K. L. Aminov, I. Ya. Gerlovin, B. Z. Malkin, I. K. Razumova. Fiz. Tverd. Tela 29, 2725 (1987).Google Scholar
  3. Aminov, L. K., B. Z. Malkin, M. A. Teplov. Magnetic properties of nonmetallic lanthanide compounds. In: Handbook on the Physics and Chemistry of the Rare-Earths, V. 22, eds. K.A. Gschneidner, and LeRoy Eyring (North-Holland, Amsterdam, 1996), p. 295.Google Scholar
  4. Aminov, L. K., A. A. Kaminskii, B. Z. Malkin. In: Physics and Spectroscopy of Laser Crystals (Moscow, Nauka, 1986), p. 84.Google Scholar
  5. Aminov, L. K. Adiabatic and nonadiabatic one-particle mechanisms of spin-lattice relaxation, In: Spectroscopy of crystals (Leningrad, Science, 1978), p. 116.Google Scholar
  6. Auzel, F., F. Pelle. Opt. Mat. 8, 15 (1997).Google Scholar
  7. Basiev, T. T., Yu. V. Orlovskii, K. K. Pukhov, F. Auzel. Laser Physics 7, 1139 (1997).Google Scholar
  8. Basiev, T. T., Yu. V. Orlovskii, K. K. Pukhov, V. B. Sigachev, M. E. Doroshenko, I. N. Vorobév. J. Luminesc. 68, 241 (1996).Google Scholar
  9. Beck, W., D. Ricard, and C. Flytzanis. Phys. Rev. B 57, 7694 (1998).ADSGoogle Scholar
  10. Bloch, F. Phys. Rev. 102, 104 (1956).zbMATHADSGoogle Scholar
  11. Born, M., and Kun Huang. Dynamical Theory of Crystal Lattices (Clarendon Press, Oxford, 1954).zbMATHGoogle Scholar
  12. Born, M., and J. R. Oppenheimer Ann. Physik 84, 457 (1927).ADSGoogle Scholar
  13. Bron, W. E., M. Wagner. Phys. Rev. 139, A 233 (1965).ADSGoogle Scholar
  14. Bottger, H. Principles of the Theory of Lattice Dynamics (Academie-Verlag, Berlin, 1983).Google Scholar
  15. Buchanan, M., E. J. Woll, Jr., Canad. J. Phys. 47, 1757 (1969).ADSGoogle Scholar
  16. Bumagina, L. A., V. I. Krotov, B. Z. Malkin, A. Kh. Khasanov. Zh. Eksp. Teor. Fiz. 80, 1543 (1981); Sov. Phys. JETP 53, 792 (1981).Google Scholar
  17. Bungenstock, C., Th. Troster, and W. B. Holzapfel. Phys. Rev. B 62, 7945 (2000).ADSGoogle Scholar
  18. Campos, A. F.,A. Meijerink, C. de Mello Donega, O. L. Malta. J. Phys. Chem. Sol. 61, 1489 (2000).ADSGoogle Scholar
  19. Chen, X., B. Di Bartolo. J. Lumin. 54, 309 (1993).Google Scholar
  20. Chen Xueyuan, Luo Zundu., J. Phys.: Condens. Matter 9, 4197 (1997).Google Scholar
  21. Christensen, H. P. Phys. Rev. B 19, 6564 (1979).ADSGoogle Scholar
  22. Clementi, E., C. Roetti. Atomic Data and Nuclear Data Tables 14, 177 (1974).ADSGoogle Scholar
  23. Clementi, E., A. D. McLean. Phys. Rev. A 133, 419 (1964).ADSGoogle Scholar
  24. Cohen, E., H. J. Guggenheim. Phys. Rev. 175, 354 (1968).ADSGoogle Scholar
  25. Condon, E. U. Phys. Rev. 32, 858 (1928).zbMATHADSGoogle Scholar
  26. Couto dos Santos, M. A., E. Antic-Fidancev, J. Y. Gesland, J. C. Kroupa, M. Lemaitre-Blaise, P. Porcher. J. Alloys Comp. 275–277, 435 (1998).Google Scholar
  27. Davidova, M. P., S. B. Zdanovitch, B. N. Kazakov, S. L. Korableva, A. L. Stolov. Opt. & Spectrosk. 42, 577 (1977).Google Scholar
  28. De Leebeeck, H., K. Binnemans, C. Gorller-Warland. J. Alloys Compounds 291, 300 (1999).Google Scholar
  29. De Mello Donega, C., A. Meijerink, G. Blasse. J. Phys.: Condens. Matter 4, 8889 (1992).ADSGoogle Scholar
  30. Dohm, V., P. Fulde. Z. Physik B 21, 369 (1975).ADSGoogle Scholar
  31. Dulick, M., G. E. Faulkner, N. J. Cockroft, D. C. Nguyen. J. Luminesc. 48–49, 512 (1991).Google Scholar
  32. Eisenmenger, W., A. A. Kaplyanskii. Nonequilibrium Phonons in Nonmetallic Crystals (Elsevier Science B.V., Amsterdam, 1986).Google Scholar
  33. Ellens, A., H. Andres, A. Meijerink and G. Blasse. Phys. Rev. B 55, 173 (1997a).ADSGoogle Scholar
  34. Ellens, A., H. Andres, M. L. H. Heerdt, R. T. Wegh, A. Meijerink, and G. Blasse. Phys. Rev. B 55, 180 (1997b).ADSGoogle Scholar
  35. Ellens, A., S. Schenker, A. Meijerink, and G. Blasse. J. Luminesc. 72–74, 183 (1997c).Google Scholar
  36. Ellens, A., S. Schenker, A. Meijerink, and G. Blasse. J. Luminesc. 69, 1 (1996).Google Scholar
  37. Eremin, M. V. In: Spectroscopy of Crystals, ed. A. A. Kaplyanskii (Nauka, Leningrad, 1989), p. 30.Google Scholar
  38. Ermeneux, F. S., C. Goutaudier, R. Moncorge, Y. Sun, R. L. Cone, E. Zannoni, E. Cavalli, M. Bettinelli. Phys. Rev. B 61, 3915 (2000).ADSGoogle Scholar
  39. Faucher, M., D. Garcia. Phys. Rev. B 26, 5451 (1982).ADSGoogle Scholar
  40. Feynman, R. P. Phys. Rev. 56, 340 (1939).zbMATHADSGoogle Scholar
  41. Fowler, W. B., D. L. Dexter. Phys. Rev. 128, 2154 (1968).ADSGoogle Scholar
  42. Franck, J. Trans. Faraday Soc. 21, 536 (1925–1926).Google Scholar
  43. Freeman, A. J., R. E. Watson. Phys. Rev. 127, 2058 (1962).ADSGoogle Scholar
  44. Garcia, E., R. R. Ryan. Acta crystallogr. C 49, 2053 (1993).Google Scholar
  45. Garcia, D., M. Faucher. J. Chem. Phys. 82, 5554 (1985).ADSGoogle Scholar
  46. Gorller-Warland, C., K. Binnemans, L. Fluyt. J. Phys.: Condens. Matter 5, 8359 (1993).ADSGoogle Scholar
  47. Gregorian, T., H. d’ Amour-Sturm, and W. B. Holzapfel. Phys. Rev. B 39,12, 497 (1989).Google Scholar
  48. Hehlen, M. P., A. Kuditcher, A. L. Lenef, H. Ni, Q. Shu, S. C. Rand, J. Rai, S. Rai. Phys. Rev. B 61, 1116 (2000).ADSGoogle Scholar
  49. Hehlen, M. P., A. Kuditcher, S. C. Rand, M. A. Tischler. J. Chem. Phys. 107, 4886 (1997).ADSGoogle Scholar
  50. Hellmann, H. In: Einfuhrung in Die Quanten Chemie, ed., B. G. Teubner (Leipzig, 1937), p. 285.Google Scholar
  51. Hellwege, K. H. Ann. Phys. 40, 529 (1941).Google Scholar
  52. Huang, K., A. Rhys. Proc. Roy. Soc. (London), A 204, 406 (1950).zbMATHADSGoogle Scholar
  53. Ignat’ ev, I. V., V. V. Ovsyankin. J. Luminesc. 72–74, 679 (1997).Google Scholar
  54. Ignat’ ev, I. V., V. V. Ovsyankin. Proc. SPIE 2706, 142 (1996a).ADSGoogle Scholar
  55. Ignat’ ev, I. V., V. V. Ovsyankin. Optika i spectrosk. 81, 68 (1996b).ADSGoogle Scholar
  56. Ignat’ ev, I. V., V. V. Ovsyankin. Spectroscopy of crystals (Leningrad, Nauka, 1983), p. 36.Google Scholar
  57. Ivanenko, Z. I., B. Z. Malkin. Fiz. Tverd. Tela 14, 153 (1972); Sov. Phys. Solid State 14, 122 (1972).Google Scholar
  58. Ivanenko, Z. I., B. Z. Malkin. Fiz. Tverd. Tela 11, 1859 (1969); Sov. Phys. Solid State 11, 14,98 (1969).Google Scholar
  59. Johnsson, M.T., G.E. Stedman. J. Phys.: Condens. Matter 11, 787 (1999).ADSGoogle Scholar
  60. Judd, B. Phys. Scr. 21, 543 (1980).ADSGoogle Scholar
  61. Kaplyanskii, A. A., A. K. Przhevusski. Optika i spectrosk. 20, 1045 (1966).Google Scholar
  62. Karayianis, N., D. E. Wortman, H. P. Jenssen. J. Phys Chem. Sol. 37, 675 (1976).ADSGoogle Scholar
  63. Kemble, E. C. The Fundamental Principles of Quantum Mechanics (McGraw-Hill Book Company, New York, 1937), p. 585.Google Scholar
  64. Kiel, A. Phys. Rev. 126, 1292 (1962).MathSciNetADSGoogle Scholar
  65. Kiss, Z. J. Phys. Rev. 127, 718 (1962).ADSGoogle Scholar
  66. Koloskova, N. G., B. I. Kochelaev. Fizika Tverd. Tela 9, 2948 (1967).Google Scholar
  67. Krivoglaz, M. A., S. I. Pekar. Proc. Institute of Physics AS USSR 4, 37 (1953).Google Scholar
  68. Krupke, W. F. Phys. Rev. 145, 325 (1966).ADSGoogle Scholar
  69. Kubo, R., Y. Toyozawa. Progr. Theor. Phys. 13, 160 (1955).ADSzbMATHGoogle Scholar
  70. Kupchikov, A.K., B.Z. Malkin, A.L. Natadze, A.I. Ryskin. Fiz. Tverd. Tela 29, 3335 (1987).Google Scholar
  71. Lax, M. J. Chem. Phys. 20, 1752 (1952).MathSciNetADSGoogle Scholar
  72. Lee, M. J., M. F. Reid, M. D. Faucher, G. W. Burdick. J. Alloys Compounds 323–324, 636 (2001).Google Scholar
  73. Lian, R., M. Yin, W. Zhang, L. Lou, J. C. Krupa. J. Alloys Compounds 311, 97 (2000).Google Scholar
  74. Liu, G. K., W. T. Carnall, R. P. Jones, R. L. Cone, J. Huang. J. Alloys Compounds 207–208, 69 (1994).Google Scholar
  75. Lupei, A. Optic. Mater. 16, 153 (2001).ADSGoogle Scholar
  76. Lupei, A., V. Lupei, C. Presura, V. N. Enaki, and A. Petraru. J. Phys.: Condens. Matter 11, 3769 (1999).ADSGoogle Scholar
  77. Macfarlane, R. M. J. Luminesc. 85, 181 (2000).ADSGoogle Scholar
  78. Malkin, B. Z., A. I. Iskhakova, S. Kamba, J. Heber, M. Altwein, G. Schaack. Phys. Rev. B 63, 0107 (2001).Google Scholar
  79. Malkin, B. Z. In: Spectroscopy of Solids Containing Rare-Earth Ions, eds. A. A. Kaplyanskii, R. M. Macfarlane (Elsevier Science Publishers, Amsterdam, 1987), ch 2, p. 13.Google Scholar
  80. Malkin, B. Z., Z. I. Ivanenko, I. B. Aizenberg. Fiz. Tverd. Tela 12, 1873 (1970); Sov. Phys. Solid State 12, 1491 (1970).Google Scholar
  81. Malkin, B. Z. Zh. Eksp. Teor. Fiz. 48, 1637 (1965); Sov. Phys. JETP 21, 1101 (1965).Google Scholar
  82. Malkin, B. Z. Fiz. Tverd. Tela 5, 1062 (1963a).Google Scholar
  83. Malkin, B. Z. Fiz. Tverd. Tela 5, 3088 (1963b).Google Scholar
  84. McCumber, D. E. Phys. Rev. 133, A163 (1964a).ADSGoogle Scholar
  85. McCumber, D. E. Phys. Rev. 135, A1676 (1964b).ADSGoogle Scholar
  86. McCumber, D. E. M. D. Sturge. J. Appl. Phys. 34, 1682 (1963).ADSGoogle Scholar
  87. Miyakawa, T., D. L. Dexter. Phys. Rev. B 1, 2961 (1970).ADSGoogle Scholar
  88. Moore, D. J., G. E. Stedman. J. Phys.: Condens. Matter 2, 2559 (1990).ADSGoogle Scholar
  89. Moos, H.W. J. Luminesc. 1, 106 (1970).ADSGoogle Scholar
  90. Neukum, J., N. Bodenschatz. J. Heber. Phys. Rev. B 50, 3536 (1994).ADSGoogle Scholar
  91. Newman, D. J. Aust. J. Phys. 31, 79 (1978).ADSGoogle Scholar
  92. Newman, D. J. Adv. Phys. 20, 197 (1971).ADSGoogle Scholar
  93. Orbach, R. Phys. Rev. 133A, 34 (1964).ADSGoogle Scholar
  94. Orlovskii, Yu. V., T. T. Basiev, I. N. Vorob’ ev, E. O. Orlovskaya, N. P. Barnes, S. B. Mirov. Optic. Mater. 18, 355 (2001).ADSGoogle Scholar
  95. Orlovskii, Yu. V., T. T. Basiev, S. A. Abalakin, I. N. Vorob’ ev, O. K. Alimov, A. G. Papashvili, K. K. Pukhov. J. Luminesc. 76–77, 371 (1998).Google Scholar
  96. Orlovskii, Yu. V., K. K. Pukhov, T. T. Basiev, T. Tsuboi. Optic. Mater. 4, 583 (1995).ADSGoogle Scholar
  97. Ovsyankin, V. V. In: Spectroscopy of Solids Containing Rare-Earth Ions, eds. A. A. Kaplyanskii, R. M. Macfarlane (Elsevier Science Publishers, Amsterdam, 1987), ch. 7, p. 343.Google Scholar
  98. Payne, S. A., C. Bibeau. J. Luminesc. 79, 143 (1998).ADSGoogle Scholar
  99. Pekar, S. I. Uspekhi Fiz. Nauk 50, 197 (1953).Google Scholar
  100. Pelle, F., N. Gardant, R. Pelletier, N. Pelletier-Allard. Optic. Mat. 14, 49 (2000).ADSGoogle Scholar
  101. Perlin, Yu. E., B. S. Tzukerblat. Electron-vibrational Interaction Effects on Optical Spectra of Impurity Paramagnetic Ions (Kishinev, Stiintza, 1974).Google Scholar
  102. Perlin, Yu. E., Yu. B. Rosenfeld, B. S. Tzukerblat. Fiz. Tverd. Tela 8, 3490 (1966).Google Scholar
  103. Perlin, Yu.E. Usp. Fiz. Nauk 80, 553 (1963); Soviet Phys. Usp. 6, 542 (1964).MathSciNetGoogle Scholar
  104. Peuker, K., R. Enderlein, A. Schenk, E. Gutsche. Phys. Stat. Sol. (b) 109, 599 (1982).ADSGoogle Scholar
  105. Popova, M. N., E. P. Chukalina, B. Z. Malkin, A. I. Iskhakova, E. Antic-Fidancev, P. Porcher, J. P. Chaminade. Phys. Rev. B 63 (2001).Google Scholar
  106. Popova, M. N., E. P. Chukalina, B. Z. Malkin, and S. K. Saikin. Phys. Rev. B 61, 7421 (2000).ADSGoogle Scholar
  107. Pukhov, K. K., V. P. Sakun. Phys. Stat. Sol. (b) 95, 391 (1979).ADSGoogle Scholar
  108. Redfield, A. G. Adv. Magn. Reson. 1, 1 (1965).Google Scholar
  109. Rump, P. J., A. F. M. Arts, H. W. de Wijn, M. Nielsen. Physica B 219–220, 760 (1996).Google Scholar
  110. Riseberg, L. A., H. W. Moos. Phys. Rev. 174, 429 (1968).ADSGoogle Scholar
  111. Salaun, S., M. T. Fornoni, A. Bulou, M. Rousseau, P. Simon, J. Y. Gesland. J. Phys. Condens. Matter 9, 6941 (1997a).ADSGoogle Scholar
  112. Salaun, S., A. Bulou, M. Rousseau, B. Hennion, J. Y. Gesland. J. Phys. Condens. Matter 9, 6957 (1997b).ADSGoogle Scholar
  113. Sardar, D. K., R. M. Yow, F. S. Salinas. Opt. Mater. 15, 301 (2001).ADSGoogle Scholar
  114. Sardar, D. K., S. C. Stubblefield. Phys. Rev. B 60, 14724 (1999).ADSGoogle Scholar
  115. Sardar D. K., R. M. Yow. Opt. Mater. 10, 191 (1998).Google Scholar
  116. Shen, Y. R., K. L. Bray, W. B. Holzapfel. J. Luminesc. 72–74, 266 (1997).Google Scholar
  117. Shen, Y., W. B. Holzapfel. Phys. Rev. B 52, 12618 (1995).ADSGoogle Scholar
  118. Synek, M., L. Corsiglia. J. Chem. Phys. 48, 3121 (1968).ADSGoogle Scholar
  119. Tovar, M., C. A. Ramos, C. Fainstein. Phys. Rev. B 28, 4813 (1983).ADSGoogle Scholar
  120. Troster, Th., T. Gregorian, and W. B. Holzapfel. Phys. Rev. B 48, 2960 (1993).ADSGoogle Scholar
  121. Van Pieterson, L., M. F. Reid, R. T. Wegh, S. Soverna, A. Miejerink. Phys. Rev. 65, 045113 (2002a).Google Scholar
  122. Van Pieterson, L., M. F. Reid, G. W. Burdick, A. Miejerink. Phys. Rev. 65, 045114 (2002b).Google Scholar
  123. Van Vleck. J. H. Phys. Rev. 57, 426 (1940).ADSGoogle Scholar
  124. Vink, A. P., M. A. Rejme, A. Meijerink. J. Luminesc. 92, 189 (2001).Google Scholar
  125. Vinokurov, A. V., B. Z. Malkin, A. I. Pominov, A. L. Stolov. Fiz. Tverd. Tela 30, 801 (1988); Sov. Phys. Solid State 30, 459 (1988).Google Scholar
  126. Vinokurov, A. V., B. Z. Malkin, A. I. Pominov, A. L. Stolov. Fiz. Tverd. Tela 28, 381 (1986); Sov. Phys. Solid State 28, 211 (1986).Google Scholar
  127. Voron’ko, Yu. K., A. L. Larionov, B. Z. Malkin. Optika i spectroscopia 40, 86 (1976).ADSGoogle Scholar
  128. Wagner, M., W. E. Bron. Phys. Rev. 139, A223 (1965).ADSGoogle Scholar
  129. Wagner, M. J. Chem. Phys. 41, 3939 (1964).ADSGoogle Scholar
  130. Wangsness, R. K., F. Bloch. Phys. Rev. 89, 728 (1953).ADSzbMATHGoogle Scholar
  131. Wannemacher, R., D. Boye, Y. P. Wang, R. Pradhan, W. Grill, J. E. Rives, and R. S. Meltzer. Phys. Rev. B 40, 4237 (1989).ADSGoogle Scholar
  132. Weber, M. J. Phys. Rev. B 8, 54 (1973).ADSGoogle Scholar
  133. Wells, J.-P. R., M. Yamaga, T. P. J. Han, H. G. Gallagher, M. Honda. Phys. Rev. B 60, 3849 (1999).ADSGoogle Scholar
  134. Yen, W. M., W. C. Scott, A. L. Schawlow. Phys. Rev. 136, A271 (1964).ADSGoogle Scholar
  135. Yuanbin, C., L. Shenxin, P. Yuewu. J. Alloys Compounds 325, 95 (2001).Google Scholar
  136. Yuanbin, C., L. Shenxin, A. Qiuping, W. Lizhong. Physica B 245, 293 (1998).Google Scholar
  137. Yuanbin, C., L. Shenxin, L. Hongnian, Z. Xuyi, W. Lizhong. J. Alloys Compounds 256, 1 (1997).Google Scholar

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