Detection of Single Spin Decoherence in a Quantum Dot via Charge Currents

Abstract

We consider a quantum dot attached to leads in the Coulomb blockade regime which has a spin 1/2 ground state. We show that by applying an ESR field to the dot-spin the stationary current in the sequential tunneling regime exhibits a resonance whose line width is determined by the single-spin decoherence time T2. The Rabi oscillations of the dot-spin are shown to induce coherent current oscillations from which T2 can be deduced in the time domain. We describe a spin-inverter which can be used to pump current through a double-dot via spin flips generated by ESR.

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