Using the Feynman-Kac Path Integral Method in Computing Eigenvalues for Hydrogenic Quantum Systems

Session J4: Atomic, Molecular, and Optical Physics II

10:15 AM–12:51 PM, Saturday, March 20, 2010
Robert Lee Moore Hall Room: 5.104

Abstract ID: BAPS.2010.TSS.J4.4

Abstract: J4.00004 : Using the Feynman-Kac Path Integral Method in Computing Eigenvalues for Hydrogenic Quantum Systems

10:51 AM–11:03 AM

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Authors:

J.M. Rejcek
N.G. Fazleev
(Department of Physics, University of Texas at Arlington)

The Feynman-Kac path integral method is applied to several hydrogenic quantum systems for the purpose of evaluating ground state eigenvalues. These are computed by random walk simulations on a discrete grid. The systems studied include free hydrogen, hydrogen in a confined spherical well and an antiproton and electron confined to the same spherical well. In addition, a method using symmetry is presented that allows higher order eigenstates to be computed. The method provides exact values in the limit of infinitesimal step size and infinite time for the lowest eigenstates.

To cite this abstract, use the following reference: http://meetings.aps.org/link/BAPS.2010.TSS.J4.4

Bulletin of the American Physical Society

Joint Spring 2010 Meeting of the Texas Sections of the APS, AAPT, and SPS
Volume 55, Number 3

Session J4: Atomic, Molecular, and Optical Physics II

Abstract: J4.00004 : Using the Feynman-Kac Path Integral Method in Computing Eigenvalues for Hydrogenic Quantum Systems

Authors:

Bulletin of the American Physical Society

Joint Spring 2010 Meeting of the Texas Sections of the APS, AAPT, and SPS Volume 55, Number 3

Session J4: Atomic, Molecular, and Optical Physics II

Abstract: J4.00004 : Using the Feynman-Kac Path Integral Method in Computing Eigenvalues for Hydrogenic Quantum Systems

Authors:

Joint Spring 2010 Meeting of the Texas Sections of the APS, AAPT, and SPS
Volume 55, Number 3