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A non-perturbative method for time-dependent problems in quantum mechanics

Quantum Physics 2007-05-23 v1

Abstract

A powerful method for calculating the eigenvalues of a Hamiltonian operator consists of converting the energy eigenvalue equation into a matrix equation by means of an appropriate basis set of functions. The convergence of the method can be greatly improved by means of a variational parameter in the basis functions determined by the principle of minimal sensitivity. In the case of the quartic anharmonic oscillator and of a symmetrical double-well potential we choose an effective oscillator frequency. In the case of nonsymmetrical potential we add a coordinate shift in a two-parameter variational calculation. The method not only gives the spectrum, but also an approximation to the energy eigenfunctions. Consequently it can be used to solve the time-dependent Schr\"odinger equation using the method of stationary states. We apply it to the time development of two different initial wave functions in the double-well slow roll potential.

Keywords

Cite

@article{arxiv.quant-ph/0412082,
  title  = {A non-perturbative method for time-dependent problems in quantum mechanics},
  author = {Paolo Amore and Alfredo Aranda and Francisco Fernandez and Hugh Jones},
  journal= {arXiv preprint arXiv:quant-ph/0412082},
  year   = {2007}
}

Comments

14 pages, 8 figures