Research Papers

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    [85] Spectral bounds for the Hellmann potential  [ps pdf]
    Richard L. Hall and Qutaibeh D. Katatbeh
    [84] Energy bounds for the spinless Salpeter equation  [ps pdf]
    Richard L. Hall, Wolfgang Lucha, and Franz F. Schoeberl
    [83] Generalized spiked harmonic oscillator  [ps pdf]
    Richard L. Hall, Nasser Saad, and Attila B von Keviczky
    J. Phys. A 34, 1169-1179 (2001).
    [82] Energy bounds for the spinless Salpeter equation: harmonic oscillator  [ps pdf]
    Richard L. Hall, Wolfgang Lucha, and Franz F. Schoeberl
    [81] General energy bounds for systems of bosons with soft cores  [ps pdf]
    Richard L. Hall
    Phys. Rev. A62, 052510 (2000).
    [80] Smooth spectral transition from Coulomb to oscillator  [ps pdf]
    Richard L. Hall
    ESI Programme Confinement (Vienna, Austria, 2000).
    [79] Perturbation expansions for the spiked harmonic oscillator and related series involving the gamma function  [ps pdf]
    Richard L. Hall and Nasser Saad
    J.Phys. A33, 5531-5537 (2000).
    [78] A simple interpolation formula for the spectra of power-law and log potentials  [ps pdf]
    Richard L. Hall
    J.Phys. G26, 981-986 (2000).
    [77] Positron tunnelling through the Coulomb barrier of superheavy nuclei  [ps pdf]
    Norman Dombey and Richard L. Hall
    Phys. Lett. B474, 1-6 (2000).
    [76] Variational analysis for a generalized spiked harmonic oscillator  [ps pdf]
    Richard L. Hall and Nasser Saad
    J. Phys. A 33, 569-578 (2000).
    [75] Spectral comparison theorem for the Dirac equation  [pdf]
    Richard L. Hall
    Phys. Rev. Lett. 83, 468-471 (1999).
    [74] Functional inversion for potentials in quantum mechanics  [ps pdf]
    Richard L. Hall
    Phys. Lett. A265, 28-34 (2000).
    [73] An inversion inequality for potentials in quantum mechanics  [pdf]
    Richard L. Hall
    J. Math. Phys. 40, 2254-2258 (1999).
    [72] Eigenvalue bounds for a class of singular potentials in N dimensions  [pdf]
    Richard L. Hall and Nasser Saad
    J. Phys. A32, 133-138 (1999).
    [71] Constructive inversion of energy trajectories in quantum mechanics  [pdf]
    Richard L. Hall
    J. Math. Phys. 40, 699-707 (1999).
    [70] Matrix elements for a generalized spiked harmonic oscillator  [pdf]
    Richard L. Hall, Nasser Saad, and Attila B. von Keviczky
    J. Math. Phys. 39, 6345-6352 (1998).
    [69] Smooth transformations of Kratzer's potential in N dimensions
    Richard L. Hall and Nasser Saad
    J. Chem. Phys. 109, 2983-2986 (1998).
    [68] Eigenvalue bounds for a class of singular potentials
    Richard L. Hall and Nasser Saad
    J. Phys. A: Math. Gen. 31, 963-967 (1998).
    [67] Spectral approximation by the polar transformation
    Richard L. Hall and Zhou Wei Hua
    Can. J. Phys. 76, 31-37 (1998).
    [66] Eigenvalue comparisons for quantum systems in a box
    Richard L. Hall and Nasser Saad
    Phys. Lett. A 237, 107-112 (1998)
    [65] Bounds on Schrödinger eigenvalues for polynomial potentials in N dimensions  [pdf]
    Richard L. Hall and Nasser Saad
    J. Math. Phys. 38, 4909-4913 (1997)
    [64] Eigenvalue bounds for transformations of solvable potentials,
    Richard L. Hall and Nasser Saad
    J. Phys. A: Math. Gen. 29, 2127-2137 (1996).
    [63] The quantum-mechanical box effect  [pdf]
    Richard L. Hall and Nasser Saad
    J. Phys. A. Math. Gen. 29, 2127-2137 (1996).
    [62] Energy bounds for the spiked harmonic oscillator
    Richard L. Hall and Nassser Saad
    Can. J. Phys. 73 , 493-496 (1995).
    [61] Geometric spectral inversion by the WKB approximation
    Richard L. Hall
    Phys. Rev A 51, 1787-1791 (1995).
    [60] Spectral geometry and the N-body problem  [pdf]
    Richard L. Hall
    Phys. Rev. A 51, 3499-3505 (1995).
    [59] The spectral inheritance of potentials with flat bottoms,
    Richard L. Hall
    Phys. Rev. A 50, 2876-2880 (1995).
    [58] Geometric Spectral Inversion
    Richard L. Hall
    J. Phys. A: Math. Gen. 28, 1771-1786 (1995).
    [57] Energy bounds for the generalized exponential-cosine screened Coulomb potential
    Michel Coté and Richard L. Hall
    Can. J.Phys. 72 , 233-237 (1994).
    [56] Energy of the laser-dressed Coulomb potential by the potential envelope method
    J. P. Duarte and Richard L. Hall
    J.Phys B: At. Mol. Opt. Phys. 27 , 1021-1025 (1994).
    [55] Computer aided delusions
    R. L. Hall
    Col. Math. J. 24, 366-369 (1993).
    [54] Envelope theory in spectral geometry
    Richard L. Hall
    J.Math.Phys. 34, 2779-2788 (1993).
    [53] Gravitating boson systems
    Richard L. Hall
    Phys. Rev. A 45, 7682-7687 (1992).
    [52] Refining the comparison theorem of quantum mechanics
    Richard L. Hall
    J. Phys. A 25, 4459-4469 (1992).
    [51] Square-well representations for potentials in quantum mechanics
    Richard L. Hall
    J. Math. Phys. 33 , 3472-3476 (1992)
    [50] Spectrum of the Coulomb-plus-Yukawa potential by the method of potential envelopes
    Richard L. Hall
    Can. J. Phys. 69, 1362-1366 (1991).
    [49] The Yukawa and Hulthen potentials in quantum mechanics
    Richard L. Hall
    J. Phys. A: Math. Gen. 25 , 1373-1382 (1992).
    [48] Mixtures of potentials in quantum mechanics
    Richard L. Hall
    J. Math. Phys. 33, 1710-1716 (1992).
    [47] The frequency-dependent convergence properties of some integrals with oscillatory integrands
    Richard L. Hall and E. R. Love
    J. Math. Anal. and Appl. 151, 550-556 (1990).
    [46] Some oscillating integrands with small ripples,
    Richard L. Hall
    J. Math. Anal. and Appl. 145, 365-370 (1990).
    [45] Spectral geometry of power-law potentials in quantum mechanics
    Richard L. Hall
    Phys. Rev. A 39, 5500-5507 (1989).
    [44] The equivalent two-body and delta lower bounds for N-boson systems
    Richard L. Hall
    J. Phys. A: Math. Gen. 22, 179-183 (1989).
    [43] The ground-state energy of a system of identical bosons
    Richard L. Hall
    J. Math. Phys. 29, 990-995 (1988).
    [42] Complementary pictures of the N-boson problem
    Richard L. Hall
    Phys. Rev. A 37, 2673-2679 (1988).
    [41] Bounds on the energy of the N-body problem with linear combinations of power-law potentials and the log potential
    Richard L. Hall
    Phys. Rev. D 37, 540-545 (1988).
    [40] Calculation of the masses of the ground-state baryons as a test of the hypothesis that the potential is a combination of a coulomb and a linear potential,
    C. S. Kalman, B. Tran, and Richard L. Hall
    Nuovo Cimento A 98, 125-130 (1987).
    [39] Complementary energy bounds for N-boson systems with linear pair potentials
    Richard L. Hall
    Phys. Rev. A 36, 4014-4019 (1987).
    [38] Dirac spinor orbits
    Richard L. Hall
    J. Math. Phys. 28, 457-464 (1987).
    [37] Dirac eigenvalues for screened Coulomb potentials
    Richard L. Hall
    J. Phys. A 19, 2079-2086 (1986).
    [36] Potential envelopes and the large-N approximation
    Richard L. Hall
    J. Math. Phys.,27, 1027-1030 (1986).
    [35] Envelope representations for screened Coulomb potentials
    Richard L. Hall
    Phys. Rev. A 32, 14-18 (1985).
    [34] Coulomb potential envelopes for a relativistic fermion in a central field,
    Richard L. Hall
    J. Math. Phys. 26, 1779-1785 (1985).
    [33] A simple eigenvalue formula for the quartic anharmonic oscillator
    Richard L. Hall
    Can. J. Phys. 63, 311-313 (1985).
    [32] Simple eigenvalue formula for the Coulomb-plus-linear potential
    Richard L. Hall
    Phys. Rev. D 30, 433-436 (1984).
    [31] Kinetic potentials in quantum mechanics
    Richard L. Hall
    J. Math. Phys. 25, 2078-2015 (1984).
    [30] The inequality (2/(N(N-1))E(N) <= (2/(K(K-1))E(K) relating two systems of identical bosons
    Richard L. Hall
    Phys. Rev. D 27, 2379-2382 (1983).
    [29] A geometrical theory of energy trajectories in quantum mechanics
    Richard L. Hall
    J. Math. Phys. 24, 324-335 (1983).
    [28] The perturbation of some exactly soluble problems in quantum mechanics by the method of potential envelopes
    Richard L. Hall and M. Sapathy
    J. Phys. A 14, 2645-2651 (1981).
    [27] A consistent quark model with hyperfine interactions for the ground and low lying baryon states
    Richard L. Hall and C. S. Kalman
    Phys. Rev. D 25, 217-222 (1982).
    [26] Schrödinger's equation with linear combinations of elementary potentials
    Richard L. Hall
    Phys. Rev. D, 23, 1421-1429 (1981).
    [25] Energy trajectories for the N-boson problem by the method of potential envelopes
    Richard L. Hall
    Phys. Rev. D 22, 2062-2072 (1980).
    [24] The hyperfine splitting of the ground state of baryonium using a harmonic oscillator potential
    C. S. Kalman, Richard L. Hall, and S. Misra
    Phys. Rev. D 21, 1905-1915 (1980).
    [23] The complete exact solution to the N-body harmonic oscillator problem
    Richard L. Hall and B. Schwesinger
    J. Math. Phys. 20, 2481-2483 (1979).
    [22] Inequalities for the probability content of a rotated square and related convolutions
    Richard L. Hall, M. Kanter, and M. Perlman
    Ann. Prob. 8, 802-813 (1980).
    [21] Inverse moments for a class of tuncated normal distributions
    Richard L. Hall
    Sankhya B, 41, 1155-1160 (1979).
    [20] Complement to the Rayleigh-Ritz principle for a system composed of identical particles
    Richard L. Hall
    Phys. Rev. C 20, 66-76 (1979).
    [19] Non-local interactions and the N-boson problem
    Richard L. Hall
    Zeitschrift für Physik A 291, 255-259 (1979).
    [18] Extension of the logarithmic potential to multiquark systems: dependence of the energy on the depth and range
    Richard Hall and C. S. Kalman
    Phys. Lett. B 83, 80-82 (1979).
    [17] Trajectories of human granulocytes
    Richard L. Hall and S. C. Peterson
    Biophys. J. 25, 365-372 (1979).
    [16] On certain functional derivatives
    Richard L. Hall
    JOTA (Journal of Optimization Theory and its Applications) 26, 373-378 (1978).
    [15] Lower energy bounds for translation-invariant atom-like systems
    Richard L. Hall
    J. Math. Phys. 19, 1969-1972 (1978).
    [14] Exact solutions of Schrödinger's equation for translation-invariant harmonic matter
    Richard L. Hall
    J. Phys. A,11, 1235-1240 (1978).
    [13] Some exact solutions to the translation-invariant N-body problem
    Richard L. Hall
    J. Phys. A: Math. Gen. 11, 1227-1233 (1978).
    [12] Exact solutions of Schrödinger's equation for translation-invariant harmonic atoms
    Richard L. Hall
    Phys. Lett. A 65, 85-86 (1978).
    [11] Amoeboid movement as a correlated walk
    Richard L. Hall
    J. Math. Biol. 4, 327-335 (1977).
    [10] Many-particle systems
    Richard L. Hall
    J. Phys. A, 5, 608-611 (1972).
    [9] On single-product functions with rotational symmetry
    Richard L. Hall
    Aequationes Mathematicae 8, 281-286 (1972).
    [8] Gaussian wave functions and the many-body problem
    Richard L. Hall
    Can. J. Phys. 50, 305-311 (1972).
    [7] Rigorous lower bounds on the energies of the N-body problem,
    Richard L. Hall
    Phys. Lett. B 30, 320-321 (1969).
    [6] The binding energy of three nucleons,
    Richard L. Hall
    Proc. Phys. Soc. (Series 2) 1, 468-474 (1968).
    [5] Bound states of three identical bosons
    J. W. Humberston, R. L. Hall, and T. A. Osborn
    Phys. Lett. B 27, 185-198 (1968).
    [4] Many-particle systems V: zero-range interactions
    R. L. Hall
    Proc. Phys. Soc. 91, 787-793 (1967).
    [3] Energy lower bounds for translation-invariant N-fermion systems,
    R. L. Hall
    Proc. Phys. Soc. 91, 16-22 (1967).
    [2] Many-particle systems IV: short-range interactions
    R. L. Hall and H. R. Post
    Proc. Phys. Soc. 90, 381-396 (1967).
    [1] Degenerate eigenvalues
    R. L. Hall
    Phys. Ed. 2, 40-41 (1967).

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