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Paper detail

Deterministic photon storage and readout in a semimagnetic quantum-dot--cavity system doped with a single Mn ion

Light trapping is a crucial mechanism for synchronization in optical communication. Especially on the level of single photons, control of the exact emission time is desirable. In this paper, we theoretically propose a single-photon buffering device composed of a quantum dot doped with a single Mn atom in a cavity. We present a method to detain a single cavity photon as an excitation of the dot. The storage scheme is based on bright to dark exciton conversion performed with an off-resonant external optical field and mediated via a spin-flip with the magnetic ion. The induced Stark shift brings both exciton states to resonance and results in an excitation transfer to the optically inactive one. The stored photon can be read out on demand in the same manner by repopulating the bright state, which has a short lifetime. Our results indicate the possibility to suspend a photon for almost two orders of magnitude longer than the lifetime of the bright exciton.

preprint2022arXivOpen access
M. CosacchiT. SeidelmannA. Mielnik-PyszczorskiM. NeumannT. K. BrachtM. CygorekA. VagovD. E. ReiterV. M. Axt
cond-mat.mes-hallquant-ph
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M. CosacchiT. SeidelmannA. Mielnik-PyszczorskiM. NeumannT. K. BrachtM. CygorekA. VagovD. E. ReiterV. M. Axt

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