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Indispensable for quantum communication and quantum computation,quantum memory executes on demand storage and retrieval of quantum states such as those of a single photon,an entangled pair or squeezed states.Among the various forms of quantum memory,Raman quantum memory has advantages forits broadband and high-speed characteristics,which results in a huge potential for applications in quantum networks and quantum computation.However,realising Raman quantum memory with true single photons and photonic entanglementis challenging.In this review,after briefly introducing the main benchmarks in the development of quantum memory and describing the state of the art,we focus on our recent experimental progress inquantum memorystorage of quantum states using the Raman scheme.
Indispensable for quantum communication and quantum computation, quantum memory implements on demand storage and retrieval of quantum states such as those of a single photon, an entangled pair or squeezed states. Among the various forms of quantum memory, Raman quantum memory has advantages forits broadband and high-speed characteristics, which results in a huge potential for applications in quantum networks and quantum computation. Yet, realizing Raman quantum memory with true single photons and photonic entanglementis challenging. in this review, after briefly introducing the main benchmarks in the development of quantum memory and describing the state of the art, we focus on our recent experimental progress in quantum memory storage of quantum states using the Raman scheme.