Сфероидальные и кулоновские сфероидальные функции - Комаров И.В.
Скачать (прямая ссылка):
Flammer C. (1953), The vector wave function solution of the diffraction of electromagnetic waves by circular disks and apertures, I. Oblate spheroidal wave functions, J. Appl. Phys. 24, 1218—1223, II. The diffraction problems, J. Appl. Phys. 24, 1224—1231.
F 1 a n n e г у M. R., О p i к U. (1965), The photoionization of the hydrogen molecule from the ground electronic and vibrational state, Proc. Phys. Soc. 86, 491—500.
Fox K, Turner J. E. (1966), WKB treatment of bound states in an electric-dipole potential, Am. J. Phys. 34, 606—610.
F r i e d e n B. R. (1971), Evaluation, design and extrapolation method for optical signals, based on use of the prolate functions, in «Progress in Optics», North Publishing Company; Amsterdam — London, v. IX, 311—407.
Fuchs W. H. J. (1964), On the eigenvalues of an integral equation arising in the theory of band-limited signals, J. Math. Analysis and Appl. 9, 317—330.
Garrett W. R. (1971), Reexamination of scattering by a pair of fixed dipolar charges, Phys. Rev. 4A, 2229—2235.
Gautschi W. (1967), Computational aspects of three-term recurrence relations, SIAM Rev. 9, 24—82.
Gerstein S. S., Ponomarev L. I. (1975), Mesomolecular processes induced by u_ mesons, in «Muon Physics», Ed. C. S. Wu, V. Hughes, Academic Press, New York.
Glaser F. M., Lassettre E. N. (1966), Momentum eigenfun-ction for the ground state of H+, J. Chem. Phys. 44, 3787—3792.
Goodrich R. F., Kazarinoff N. D. (1963), Scalar diffraction by prolate spheroids whose eccentricities are almost one, Proc. Cambridge, Phil. Soc. 59, 167—183.
Goodrich R. F., Kazarinoff N. D., Weston V. H. (1963), Scalar diffraction by a thin oblate spheroid, in «Eleclromagnetic Theory and Antennas», Pergamon Press, Oxford, 27—38.
Granger S., Spence R. D. (1951), Energy levels of a spheroidal nuclear wall, Phys. Rev. 73, 460—461.
Gupta R. K. (1968), A finite transform involving spheroidal wave function and its applications, Proc. Nat. Inst. Sci. Indian A34, 6, 289—300.
Hal pern A. M. (1969), Orbital angular momentum decomposition of the three-body coupling scheme: muonic molecules and the hydrogen molecular ion, Phys. Rev. 186, 14—25.
Hanish S., В a i e r R. V., V a n Bnren A. L„ King B. J. (1971), Tables of radial spheroidal wave functions, U. S. Naval Research Lab. Reps. Nos. 70881, 7089, 7090, 7091, 7092, 7093, Washington, D. C.
Hansen E. B. (1964), Higher order diffraction by a circular disk, Acta Polytech. Scandinav. Series 33, UDC 534, 26.
Hara S. (1969), A two center approach in the low energy electron H2 scattering, J. Phys. Soc. Japan 27, 4, 1009—1019.
310
Hatcher E. С, Leitner A. (1954), Radiation from a point dipole located at the tip of a prolate spheroid, J, Appl. Phys. 25, 1250—1253.
Hayes E. F., Parr Я G. (1967), Single-centre expansions of molecular electronic wave functions, Suppl. Progr. Theor. Phvs. 40, 78—105.
Helfrich K. (1971), Generalized quantum mechanical two-centre problems. III. Calculation of exact expectation values, Theoret. Chim. Acta (Berlin) 21, 381—397.
Helfrich K. (1972), Constants of motion for separable one-particle problems with cylinder symmetry, Theoret. Chim. Acta (Berlin) 24, 271—282.
Helfrich K., Hartmann H. (1965), Dber einen Zusammen-hang der nach Hylleraas and der nach Jaffe bestimmen Losungen der Schrodinger-Gleichung fur ein Elektron im Feld zweiter Punktladun-gen, Theoret. Chim. Acta (Berlin) 3, 21—30.
Helfrich K., Hartmann H. (1970), Generalized quantum mechanical two-centre problems, I, General theory and results for some two-centre Coulomb problems, Theoret. Chim. Acta (Berlin) 16, 263—277.
Hell mig E. (1937), Beitrag zur Berechnung der Terme des Wasserstoffmolekul-ions, Z. Phys. 104, 694—710.
Herring C. (1962), Critique of the Heitler — London method of calculating spin couplings at large distances, Rev. Mod. Phys. 34, 631—645.
Heurtley J. C. (1964), Hyperspheroidal functions—optical resonators with circular mirrors, in «Ргос. Symp. on Quasioptics», Poli-technic Press, New York.
HirschfelderJ. O., Byers-Brown W., Epstein S. T. (1964), Recent developments in perturbation theory, in «Advances in Quantum Chemistry», v. I. Ed. P. O. Lowdin, New York, Academic Press.
Hodge D. B. (1970), Eigenvalues and eigenfunctions of the spheroidal wave equation, J. Math. Phys. 11, 8, 2308—2312.
Howell К. M., Schull H. (1959), Single-center expansions for one-electron systems Hj, J. Chem. Phys. 30, 627—633.
Hughes J. W. B. (1967), Stark states and О (4) symmetry of hydrogenic atoms, Proc. Phys. Soc. London, 91, 810—818.
Hunter G„ Gray B. F., Pr it chard H. O. (1966), Born— Oppenheimer separation for three-particle systems, I. Theory, J. Chem. Phys. 45, 10, 3806—3816.
Hunter G., Pritchard H. O. (1967a), Born — Oppenheimer separation for three-particle systems, II. Two-center wavefunctions, J. Chem. Phys. 46, 6, 2146—2152.
Hunter G., Pritchard H. O. (1967b), Born — Oppenheimer separation for three-particles systems, III. Applications, J. Chem. Phys. 46, 6, 2153—2158.
Hunter H. E., Kirk D. В., S e n i о г Т. В. A., Wittenberg E. R. (1965), Tables of spheroidal functions for m=0, vol. I and II. Radiation Lag. Univ. of Michigan, Ann. Arbor, Mich.
