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

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

2005-03-07

arxiv.org/abs/hep-th/0503051v1

Physics

High Energy Physics

High Energy Physics - Theory

6pages,6figures

Scientific paper

Gauge fields are formulated in terms of the zero-energy eigenstates of 2-dimensional Schr$\ddot {\rm o}$dinger equations with central potentials $V_a(\rho)=-a^2g_a\rho^{2(a-1)}$ ($a\not=0$, $g_a>0$ and $\rho=\sqrt{x^2+y^2}$). 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 $e^{ig_c\chi_A}$, where $\chi_A$ 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 $m^2=-g_1$. 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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