Interacting gauge fields and the zero-energy eigenstates in two dimensions

Abstract

Gauge fields are formulated in terms of the zero-energy eigenstates of 2-dimensional Schr odinger equations with central potentials Va()=-a2ga2(a-1) (a=0, ga>0 and =x2+y2). It is shown that the zero-energy states can naturally be interpreted as a kind of interacting gauge fields of which effects are solved as the factors eigcA, where A are complex gauge functions written by the zero-energy eigenfunctions. We see that the gauge fields for a=1 are nothing but tachyons that have negative squared-mass m2=-g1. We also find out U(1)-type gauge fields for a=1/2 and SU(3)-type gauge fields for a=3/2. Massive particles with internal structures described by the zero-energy states are also studied.

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