Perturbative Expansion in the Galilean Invariant Spin One-Half
  Chern-Simons Field Theory

C. R. Hagen; C. R. Hagen; C. R. Hagen; C. R. Hagen; C. R. Hagen; D. Bak; E. Corinaldesi; E. L. Feinberg; F. Vera; J. M. Lévy-Leblond; O. Bergman; Y. Aharonov; Y. Aharonov

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Perturbative Expansion in the Galilean Invariant Spin One-Half Chern-Simons Field Theory

Authors: C. R. Hagen
C. R. Hagen
C. R. Hagen
C. R. Hagen
C. R. Hagen
D. Bak
E. Corinaldesi
E. L. Feinberg
F. Vera
J. M. Lévy-Leblond
O. Bergman
Y. Aharonov
Y. Aharonov
Publication date: 1 January 1997
Publisher: 'American Physical Society (APS)'
Doi

Abstract

A Galilean Chern-Simons field theory is formulated for the case of two interacting spin-1/2 fields of distinct masses M and M'. A method for the construction of states containing N particles of mass M and N' particles of mass M' is given which is subsequently used to display equivalence to the spin-1/2 Aharonov-Bohm effect in the N = N' =1 sector of the model. The latter is then studied in perturbation theory to determine whether there are divergences in the fourth order (one loop) diagram. It is found that the contribution of that order is finite (and vanishing) for the case of parallel spin projections while the antiparallel case displays divergences which are known to characterize the spin zero case in field theory as well as in quantum mechanics.Comment: 14 pages LaTeX, including 2 figures using eps

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