Infrared divergence on the light-front and dynamical Higgs mechanism

Abstract

Dynamical Higgs mechanism on the light-front (LF) is studied using a (1+1) dimensional model, with emphasis on the infrared divergence problem. The consideration of the zero mode k+ = 0 is not sufficient for investigating dynamical symmetry breaking on the LF. It also needs to treat properly an infrared divergence caused by internal momentum p+ 0 ~ (p+ ≠ 0) in the continuum limit. In order to avoid the divergence, we introduce an infrared cutoff function F IR (p, ) which is not Lorentz invariant. It is then shown that the gauge boson obtains mass dynamically on the LF.

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