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arxiv 1203.6423 v1 pith:M4C4TYD5 submitted 2012-03-29 cond-mat.supr-con hep-ph

Influence of a uniform magnetic field on dynamical chiral symmetry breaking in QED₃

classification cond-mat.supr-con hep-ph
keywords fieldmagneticdynamicaltemperaturebreakingchiralcriticalcuprate
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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We study dynamical chiral symmetry breaking (DCSB) in an effective QED$_{3}$ theory of d-wave high temperature cuprate superconductors under a uniform magnetic field. At zero temperature, the external magnetic field induces a mixed state by generating vortices in the condensate of charged holons. The growing magnetic field suppresses the superfluid density and thus reduces the gauge field mass which is opened via the Anderson-Higgs mechanism. By numerically solving the Dyson-Schwinger gap equation, we show that the massless fermions acquires a dynamical gap through DCSB mechanism when the magnetic field strength $H$ is above a critical value $H_{c}$ and the fermion flavors $N$ is below a critical value $N_{c}$. Further, it is found that both $N_{c}$ and the dynamical fermion gap increase as the magnetic field $H$ grows. It is expected that our result can be tested in phenomena in high temperature cuprate superconductors.

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