Coherent single electron spin control in a slanting Zeeman field
Abstract
We consider a single electron in a 1D quantum dot with a static slanting Zeeman field. By combining the spin and orbital degrees of freedom of the electron, an effective quantum two-level (qubit) system is defined. This pseudo-spin can be coherently manipulated by the voltage applied to the gate electrodes, without the need for an external time-dependent magnetic field or spin-orbit coupling. Single qubit rotations and the C-NOT operation can be realized. We estimated relaxation (T1) and coherence (T2) times, and the (tunable) quality factor. This scheme implies important experimental advantages for single electron spin control.
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