Сфероидальные и кулоновские сфероидальные функции - Комаров И.В.
Скачать (прямая ссылка):
Bates D. R, Ledsham K., Stewart A. L. (1953), Wave functions of the hydrogen molecular ion, Phil. Trans. Roy. Soc. London A246, 215—240.
Bates D. R., Massey H. S., Stewart A. L. (1953), Inelastic collisions between atoms, I. General theoretical considerations, Proc. Roy. Soc. London A216, 437—458.
Bates D. R., Opik U, Poots G. (1953), Properties of the hydrogen molecular ion, II. Photo-ionization from the lsag, 2sas and 3soe states, Proc. Phys. Soc. A66, 1113—1123.
Bates D. R., Reid R. H. G. (1968), Electronic eigenenergies of the hydrogen molecular ion, in «Advanccs in Atomic and Molec. Phys.», v. IV, Ed. D. R. Bates, and I. Esterman, Academic Press, New York and London, 13—35.
Beckel C. L., Hansen III, B. D., Peek J. M. (1970), Theoretical study of H^" ground electronic state spectroscopic properties, J. Chem. Phys. 53, 10, 3681—3690.
Beckel C. L., S h a f i M., P e e к J. M. (1973), Theoretical study of H^" spectroscopic properties, II. The 3da electronic state, J. Chem. Phys. 59, 10, 528B—5293.
Berry M. V., Mount К. E. (1972), Scmiclassical approximations in wave mechanics, Rep. Progr. Phys. 35, 315—397.
306
Bin gel W. A. (1957), Eine neue Methode zur Berechnung Jcr Elektronentermc von Molekulen, Z. Naturforsch. 12a, 59—70.
В in gel W. A. (1959), United atom treatment of the behaviour of potential energy curves of diatomic molecules for small R, J. Chem. Phys. 30, 5, 1250—1253.
В i n g e 1 W. A. (1961), Potentialkurven zweiatomiger und potentielle Energieflachen vieratomiger Molekule fur kleine Kernab-stiinde, Z. Naturforsch 16a, 668^675.
В in gel W. A. (1963), Comment on the use of united-atom expansion, J. Chem. Phys. 38, 1, 274—275.
Blanch G. (1964), Numerical evaluation of continued fractions, SIAM Rev. 6, 383—421.
Born M., Oppenheimer R. (1927), Zur Quantentheorie der Molekulen Ann. der Phys. 84, 457—484.
BouwkampC. J. (1947), On spheroidal wave functions of order zero, J. Math. Phys. 26, 79—92.
В ou w к amp C. J. (1950a), On the freely vibrating circular disk and the diffraction by circular disks and apertures, Physica 16, i —16.
Bouwkamp C. J. (1950b), On the diffraction of electromagnetic waves by small circular discs and holes, Philips. Res. Rep. 5, 401—422.
Bouwkamp C. J. (1950c), On the characteristic values of spheroidal wave functions, Philips. Res. Reps 5, 87—90.
Bouwkamp C. J. (1959), On the theory of spheroidal wave functions of order zero, Proc. Konikl. Ned. Akad. Wett. Amsterdam, 53, 931—944.
Bowman J. J., Senior Т. B. A., Uslenghi P. L. E. (1969), Electromagnetic and acoustic scattering by simple shapes, North — Holland Publishing Company — Amsterdam.
Boyd G. D., Gordon J. P. (1961), Confocal multtmode resonator for millimeter through optical wave length masers, Bell. Syst. Techn. J. 40, 489—508.
Brown H. A. (1969), Effect of truncation on image enchancement by prolate spheroidal functions, J. Opt. Soc. Am. 59, 2, 228—229.
Buck G. J. (1972), Radar mapping. Prolate spheroidal wave functions versus truncated inverse Fourier transform, Trans. IEEE, AP-20, 188—193.
Buck G. J., Gustincic J. J. (1967), Resolution limitations of a finite aperture, IEEE Trans. AP-15, 376—381.
Buckingham R. A. (1961), Exactly soluble bound state problems, in D. R. Bates (ed.) «Quantum theory» 1, New York, London, Academic Press.
Van В lire n A. L., В a i e r R. V., HanishS., King B.J. (1972), Calculation of spheroidal wave functions, J. Acoust. Soc. Amer. 51, 1, part II, 414—416.
Burrau O. (1927), Berechnung des Energiwertes des Wasser-stoff molekul-Ions (H^~) in Normalzustand, Kgh Danske Videnskab: Selskab. Math.-fis. Medd. 7, 14, 1—18.
Byers-Brown W., Power J. D. (1970), Perturbation theoiy of short-range atomic interactions, Proc. Roy. Soc. London, A317, 545—574.
Byers-Brown W., Roberts R. E. (1967), On the critical binding of an electron by an electric dipole, J. Chem. Phys. 46, 5, 2006—2007.
20'
307
Byers-Brown W., Steiner E. (1966), On the electronie energy of a one-electron diatomic molecule near the united atomJ. Chem. Phys. 44, 10, 3934—3940.
Byrd P. F., Friedman M. ТЭ. (1954), Handbook of elliptic integrals for engineers and physicists, Berlin — Gottingen — Heidelberg.
Carson T. R., Dalgarno A. (1955), Approximate molecular orbitals III: the 2sos and 3das states of Hj", Pros. Phys. Soc. London, A68, 569—576.
Chako N. (1957), On integral relations involving products of spheroidal functions, J. Math, and Phys. 36, 62—73.
Chakravarty S. K. (1939), Quantization under two centres of force, I. The hydrogen molecular ion, Phil. Mag. 28, 423—434.
Chang Shih-Yung (1973), Van Vleck perturbation treatment of short-range atomic interaction in H^" and HeH++, J. Chem. Phys. 59, 4, 1790—1795.
Chao C. Y. (1929). The problem of the ionized hydrogen molecule, Proc. Nat. Acad. Amer. Sci. 15, 558—565.
Cherry Т. M. (1950), Uniform asymptotics formulae for functions with transition points, Trans. Amer. Math. Soc. 68, 224—257.
Chu L. J., Stratton. J. A. (1941a), Elliptic and spheroidal wave functions, J. Math. Phys. 20, 259—309.
