Abstract
We consider electromagnetic response and kinetic properties of a strongly correlated two-dimensional electron system having parity- and time-reversal symmetry violating ground state. An important example of such a state is presented by a generalized flux phase of the doped Mott insulator with a fictitious magnetic field commensurate with filling. We observe that electromagnetic response functions of the compressible flux states exhibit no superconducting behaviour. Processes of spinon and holon scattering by fluctuations of a fictitious magnetic field produce a relaxation of the system. On the basis of the quantum kinetic equation we find frequency- and momentum-dependent electrical and thermal conductivities and thermopower of a generalized flux phase.
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