Storage and retrieval of microwave fields at the single-photon level in a spin ensemble

A. Bienfait; B. Julsgaard; C. Grezes; D. Esteve; D. Vion; J. Isoya; K. M{\o}lmer; K. Nakamura; M. Stern; P. Bertet

arxiv: 1504.02220 · v1 · pith:KR2JJMSOnew · submitted 2015-04-09 · 🪐 quant-ph

Storage and retrieval of microwave fields at the single-photon level in a spin ensemble

C. Grezes , B. Julsgaard , Y. Kubo , W. L. Ma , M. Stern , A. Bienfait , K. Nakamura , J. Isoya

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S. Onoda T. Ohshima V. Jacques D. Vion D. Esteve R. B. Liu K. M{\o}lmer P. Bertet

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keywords storageenergylevelmemorymicrowavesingle-photonsuperconductingabsorbed

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We report the storage of microwave pulses at the single-photon level in a spin-ensemble memory consisting of $10^{10}$ NV centers in a diamond crystal coupled to a superconducting LC resonator. The energy of the signal, retrieved $100\, \mu \mathrm{s}$ later by spin-echo techniques, reaches $0.3\%$ of the energy absorbed by the spins, and this storage efficiency is quantitatively accounted for by simulations. This figure of merit is sufficient to envision first implementations of a quantum memory for superconducting qubits.

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Storage and retrieval of microwave fields at the single-photon level in a spin ensemble

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