Non-Abelian Higgs Theory in a Strong Magnetic Field and Confinement

Abstract

The non-abelian Higgs (NAH) theory is studied in a strong magnetic field. For simplicity, we study the SU(2) NAH theory with the Higgs triplet in a constant strong magnetic field B, where the lowest-Landau-level (LLL) approximation can be used. Without magnetic fields, charged vector fields Aμ have a large mass M due to Higgs condensation, while the photon field Aμ remains to be massless. In a strong constant magnetic field near and below the critical value eBc M2, the charged vector fields Aμ behave as 1+1-dimensional quasi-massless fields, and give a strong correlation along the magnetic-field direction between off-diagonal charges coupled with Aμ. This may lead a new type of confinement caused by charged vector fields Aμ.