P. W. Brouwer, J. N. H. J. Cremers, B. I. Halperin
Published 2001-05-10, updated 2001-10-23Version 3
In a two-dimensional quantum dot in a GaAs heterostructure, the spin-orbit scattering rate is substantially reduced below the rate in a bulk two-dimensional electron gas [B.I. Halperin et al, Phys. Rev. Lett. 86, 2106 (2001)]. Such a reduction can be undone if the spin-orbit coupling parameters acquire a spatial dependence, which can be achieved, e.g., by a metal gate covering only a part of the quantum dot. We calculate the effect of such spatially non-uniform spin-orbit scattering on the weak localization correction and the universal conductance fluctuations of a chaotic quantum dot coupled to electron reservoirs by ballistic point contacts, in the presence of a magnetic field parallel to the plane of the quantum dot.
Comments: 4 pages, RevTeX; 2 figures. Substantial revisions
Journal: Phys. Rev. B 65, 081302 (2002)
Tunable spin-orbit coupling in two-dimensional InSe
Strong and Tunable Spin-Orbit Coupling of One-Dimensional Holes in Ge/Si Core/Shell Nanowires
Conductance fluctuations and weak localization in chaotic quantum dots
