Weibin Lin scite author profile

Faithfully storing an unknown quantum light state is essential to advanced quantum communication and distributed quantum computation applications. The required quantum memory must have high fidelity to improve the performance of a quantum network. Here we report the reversible transfer of photonic polarization states into collective atomic excitation in a compact solid-state device. The quantum memory is based on an atomic frequency comb (AFC) in rare-earth ion-doped crystals. We obtain up to 0.999 process fidelity for the storage and retrieval process of single-photon-level coherent pulse. This reliable quantum memory is a crucial step toward quantum networks based on solid-state devices.

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Numerical analysis of a lock-release oil slick

Zeng

Luo

Chen

et al. 2010

Communications in Nonlinear Science and Numerical Simulation

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Proposed solid-state Faraday anomalous-dispersion optical filter

Lin

Zhou

et al. 2011

Phys. Rev. A

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We propose a Faraday anomalous dispersion optical filter (FADOF) based on a rare-earth ion doped crystal. We present theoretical analyses for the solid-state FADOF transmission. Our theoretical model predicts a maximum transmission efficiency of 71% and a double-peaked transmission spectrum with a bandwidth of 6 GHz under current experimental conditions. Our proposal may have important applications in optical communications.Comment: 4 pages,3 figure

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A Novel Speech Recognition Algorithm for Substation Safety Notification Based on IPASS-LSTM

et al. 2020

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Weibin Lin

Realization of Reliable Solid-State Quantum Memory for Photonic Polarization Qubit

Numerical analysis of a lock-release oil slick

Proposed solid-state Faraday anomalous-dispersion optical filter

A Novel Speech Recognition Algorithm for Substation Safety Notification Based on IPASS-LSTM

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