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arxiv: 2307.02323 · v1 · pith:UYEBPD7Fnew · submitted 2023-07-05 · 🪐 quant-ph · cond-mat.mes-hall

Enhanced Electron Spin Coherence in a GaAs Quantum Emitter

classification 🪐 quant-ph cond-mat.mes-hall
keywords coherentgaasquantumspincoherencecoolingdotsphotons
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A spin-photon interface should operate with both coherent photons and a coherent spin to enable cluster-state generation and entanglement distribution. In high-quality devices, self-assembled GaAs quantum dots are near-perfect emitters of on-demand coherent photons. However, the spin rapidly decoheres via the magnetic noise arising from the host nuclei. Here, we address this drawback by implementing an all-optical nuclear-spin cooling scheme on a GaAs quantum dot. The electron-spin coherence time increases 156-fold from $T_2^*$ = 3.9 ns to 0.608 $\mu$s. The cooling scheme depends on a non-collinear term in the hyperfine interaction. The results show that such a term is present even though the strain is low and no external stress is applied. Our work highlights the potential of optically-active GaAs quantum dots as fast, highly coherent spin-photon interfaces.

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