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Determinisitic Writing and Control of the Dark Exciton Spin using Short Single Optical Pulses

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arxiv 1408.2892 v2 pith:IT5RGN2U submitted 2014-08-13 quant-ph cond-mat.mes-hall

Determinisitic Writing and Control of the Dark Exciton Spin using Short Single Optical Pulses

classification quant-ph cond-mat.mes-hall
keywords darkexcitonquantumqubitopticalspinstatedot-confined
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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We demonstrate that the quantum dot-confined dark exciton forms a long-lived integer spin solid state qubit which can be deterministically on-demand initiated in a pure state by one optical pulse. Moreover, we show that this qubit can be fully controlled using short optical pulses, which are several orders of magnitude shorter than the life and coherence times of the qubit. Our demonstrations do not require an externally applied magnetic field and they establish that the quantum dot-confined dark exciton forms an excellent solid state matter qubit with some advantages over the half-integer spin qubits such as the confined electron and hole, separately. Since quantum dots are semiconductor nanostructures that allow integration of electronic and photonic components, the dark exciton may have important implications on implementations of quantum technologies consisting of semiconductor qubits.

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