arXiv:math-ph/0310035 Abstract

arXiv:math-ph/0310035Abstract References Reviews Resources

Bound states in two spatial dimensions in the non-central case

Published 2003-10-17Version 1

We derive a bound on the total number of negative energy bound states in a potential in two spatial dimensions by using an adaptation of the Schwinger method to derive the Birman-Schwinger bound in three dimensions. Specifically, counting the number of bound states in a potential gV for g=1 is replaced by counting the number of g_i's for which zero energy bound states exist, and then the kernel of the integral equation for the zero-energy wave functon is symmetrized. One of the keys of the solution is the replacement of an inhomogeneous integral equation by a homogeneous integral equation.

Comments: Work supported in part by the U.S. Department of Energy under Grant No. DE-FG02-84-ER40158

Journal: J.Math.Phys. 45 (2004) 922-931

DOI: 10.1063/1.1639956

Categories: math-ph, math.MP

Subjects: 03.65.Ge, 02.30.Rz

Keywords: spatial dimensions, non-central case, zero energy bound states, zero-energy wave functon, negative energy bound states

Tags: journal article

Related articles: Most relevant | Search more

arXiv:0912.0414 [math-ph] (Published 2009-12-02, updated 2010-01-22)

Zero Energy Bound States in Three--Particle Systems

Dmitry K. Gridnev

arXiv:1111.6788 [math-ph] (Published 2011-11-29, updated 2012-04-16)

Zero Energy Bound States and Resonances in Three--Particle Systems

Dmitry K. Gridnev

arXiv:0902.4358 [math-ph] (Published 2009-02-25)

Q-ball Scattering on Barriers and Holes in 1 and 2 Spatial Dimensions

Jassem H. Al-Alawi, Wojtek J. Zakrzewski

arXiv Analytics