Isotropic Transverse XY Chain with Energy- and Magnetization Currents

Abstract

The ground-state correlations are investigated for an isotropic transverse XY chain which is constrained to carry either a current of magnetization JM or a current of energy JE. We find that the effect of nonzero JM on the large-distance decay of correlations is twofold: i) oscillations are introduced and ii) the amplitude of the power law decay increases with increasing current. The effect of energy current is more complex. Generically, correlations in current carrying states are found to decay faster than in the JE=0 states, contrary to expectations that correlations are increased by the presence of currents. However, increasing the current, one reaches a special line where the correlations become comparable to those of the JE=0 states. On this line, the symmetry of the ground state is enhanced and the transverse magnetization vanishes. Further increase of the current destroys the extra symmetry but the transverse magnetization remains at the high-symmetry, zero value.