Effect of gauge boson mass on chiral symmetry breaking in QED$_{3}$


الملخص بالإنكليزية

In three-dimensional quantum electrodynamics (QED$_{3}$) with massive gauge boson, we investigate the Dyson-Schwinger equation for the fermion self-energy in the Landau gauge and find that chiral symmetry breaking (CSB) occurs when the gauge boson mass $xi$ is smaller than a finite critical value $xi_{cv}$ but is suppressed when $xi > xi_{cv}$. We further show that the critical value $xi_{cv}$ does not qualitatively change after considering higher order corrections from the wave function renormalization and vertex function. Based on the relation between CSB and the gauge boson mass $xi$, we give a field theoretical description of the competing antiferromagnetic and superconducting orders and, in particular, the coexistence of these two orders in high temperature superconductors. When the gauge boson mass $xi$ is generated via instanton effect in a compact QED$_{3}$ of massless fermions, our result shows that CSB coexists with instanton effect in a wide region of $xi$, which can be used to study the confinement-deconfinement phase transition.

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