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Supersymmetric BCS: Effects of an external magnetic field and spatial
fluctuations of the gap
release_wbxgjhipdfgyjjcyhga2cmd66a
by
Alejandro Barranco
Released
as a article
.
2013
Abstract
Recently an N=1 supersymmetric model of BCS superconductivity was proposed
realizing spontaneous symmetry breaking of a U(1)_R symmetry. Due to scalar
contributions the superconducting phase transition turned out to be first order
rather than second order as in standard BCS theory. Here we consider the
effects of an external magnetic field and spatial fluctuations of the gap in
that model. This allows us to compute the magnetic penetration length and the
coherence length, and also to distinguish between type I and type II
superconductors. We compare the supersymmetric and standard relativistic BCS
results, where the main differences come from the different orders of the phase
transition.
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1301.0691v2
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