Peter Kopietz, Axel Voelker
Published 1997-11-21Version 1
A time-dependent electric field gives rise to a stationary non-equilibrium current I^{(2)} around a mesoscopic metal ring threaded by a magnetic flux. We show that this current, which is proportional to the intensity of the field, is closely related to the exchange part of the interaction contribution to the equilibrium persistent current, and that the corresponding non-linear conductivity directly measures the weak localization correction to the polarization. We explicitly calculate the disorder average of I^{(2)} in the diffusive regime as function of the frequency of the electric field and the static flux piercing the ring, and suggest an experiment to test our theory.
Comments: RevTex, 6 figures, accepted for publication in European Physical Journal B
Journal: Eur. Phys. J. B 3, 397 (1998)
Magneto-oscillations due to electron-electron interactions in the ac conductivity of a 2D electron gas
Supercurrent dephasing by electron-electron interactions
Current noise, electron-electron interactions, and quantum interference
