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Calculate Rayleigh - Schrodinger perturbation series for superposition of the Coulomb and Yukawa potentials

Hamiltonian for this screened Coulomb potential known as Hellmann potential has the form:
H = p2/2 - 1/r + g[1-exp(-delta r)]/r, where g is a mixing parameter and delta is an inverse screening radius considered as a small perturbation parameter.

The energy is expanded in powers of delta:
E(delta) = E0 + E1 delta + ... + EN deltaN, where
      E0 = -1/(2 n2) is unperturbed Coulomb energy,
      n and l are the principal and azimuthal oscillator quantum numbers, and
      N is the order of perturbation theory.

Enter the principal and azimuthal quantum numbers n =
l =
Integers, n>l>=0, n=1 and l=0 for the ground state
Enter the the mixing parameter g = Integer, rational or floating-point. One for Yukawa potential. Enter a dot (.) to leave g unevaluated.
Enter the order of perturbation theory N = N = 1,2,3,...

Download a text of the Mathematica program that is used for this calculation. This program can be easily modified for a screened Coulomb potential of a general form
-1/r + v1 delta + v2 delta2 r + v3 delta3 r2 + ... + vN deltaN rN-1.

102 - 110 coefficients for 1s (the ground state, n=1, l=0), 2s (n=2, l=0), and 2p (n=2, l=1) states in exact form calculated earlier.

150 coefficients for the ground state of Yukawa potential calculated earlier.

Calculate Rayleigh - Schrodinger perturbation series for various quantum-mechanical problems Directory of Sergeev's files Designed by A. Sergeev

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