An application of the HeunB function (2212.08917v1)

Abstract: How does the inclusion of the gravitational potential alter an otherwise exact quantum mechanical result? This question motivates this report, with the answer determined from an edited version of problem #12 on p.273 of Ref.1. To elaborate, we begin with the Hamiltonian associated with the system of two masses in the problem obeying Hooke's law and vibrating about their equilibrium positions in one dimension; the Schrodinger equation for the reduced mass is then solved to obtain the parabolic cylinder functions as eigenfunctions and the eigenvalues of the reduced Hamiltonian are calculated exactly. Parenthetically,the quantum mechanics of a bounded linear harmonic oscillator was perhaps first studied by Auluck and Kothari[2]. The introduction of the gravitational potential in the aforesaid Schrodinger equation alters the eigenfunctions to the biconfluent HeunB function[3]; and the eigenvalues are the determined from a recent series expansion[4] in terms of the Hermite functions for the solution of the differential equation whose exact solution is the aforesaid HeunB function.