Transport properties in the d-density-wave state in an external magnetic field: The Wiedemann-Franz law

Abstract

We derive the electrical and thermal conductivities of the d-density-wave state in an external magnetic field B in the low-temperature regime and in the presence of impurities. We show that in the zero-temperature limit, T 0, the Wiedemann-Franz (WF) law remains intact irrespectively of the value of the applied field and chemical potential μ as soon as there is a scattering from impurities. For finite T |μ| the WF law violation is possible and it is enhanced by the external field. Depending on the relative values of B and T the electrical conduction may dominate the heat conduction and vice versa. For μ T the WF is restored even in the presence of the external field.

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