Gate control of spin dynamics in III-V semiconductor quantum dots
Abstract
We show that the g-factor and the spin-flip time T1 of a heterojunction quantum dot is very sensitive to the band-bending interface electric field even in the absence of wave function penetration into the barrier. When this electric field is of the order of 105 V/cm, g and T1 show high sensitivity to dot radius and magnetic field arising from the interplay between Rashba and Dresselhaus spin-orbit interactions. This result opens new possibilities for the design of a quantum dot spin quantum computer where g-factor and T1 can be engineered by manipulating the spin-orbit coupling through external gates.
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