Add to ORKG© 2019 American Physical Society. We propose a technique for γ photon quantum memory through a Doppler frequency comb, produced by a set of resonantly absorbing nuclear targets that move with different velocities. It provides a reliable storage, an on-demand generation, and a time sequencing of a single γ photon. This scheme presents the first γ-photon-nuclear-ensemble interface opening a new direction of research in quantum information science
Quantum memories are used for storing the quantum mechanical states of photons and release identical...
Optical quantum memories are devices that store and recall quantum light and are vital to the realis...
The non-interacting and high-speed nature of light makes it an ideal carrier of information that is ...
© 2019 American Physical Society. We propose a technique for γ photon quantum memory through a Doppl...
Single photons are a vital resource for optical quantum information processing. efficient and determ...
The future challenge of quantum communication is scalable quantum networks, which require coherent a...
An elementary quantum network operation involves storing a qubit state in an atomic quantum memory n...
Summary form only given. Quantum networks consist of many quantum memory nodes that are interconnect...
Single photons are a vital resource for optical quantum information processing. Efficient and determ...
We investigate the feasibility of implementing an elementary building block for quantum information ...
We propose a quantum repeater protocol which builds on the well-known DLCZ protocol [L.M. Duan, M.D....
We demonstrate storage of heralded single photons in a room-temperature quantum memory, a key step t...
Interfaced single-photon sources and quantum memories for photons together form a foundational compo...
Quantum memories, capable of controllably storing and releasing a photon, are a crucial component fo...
Photonic quantum information technologies rely on quantum memory for long-lived storage and coherent...
Quantum memories are used for storing the quantum mechanical states of photons and release identical...
Optical quantum memories are devices that store and recall quantum light and are vital to the realis...
The non-interacting and high-speed nature of light makes it an ideal carrier of information that is ...
© 2019 American Physical Society. We propose a technique for γ photon quantum memory through a Doppl...
Single photons are a vital resource for optical quantum information processing. efficient and determ...
The future challenge of quantum communication is scalable quantum networks, which require coherent a...
An elementary quantum network operation involves storing a qubit state in an atomic quantum memory n...
Summary form only given. Quantum networks consist of many quantum memory nodes that are interconnect...
Single photons are a vital resource for optical quantum information processing. Efficient and determ...
We investigate the feasibility of implementing an elementary building block for quantum information ...
We propose a quantum repeater protocol which builds on the well-known DLCZ protocol [L.M. Duan, M.D....
We demonstrate storage of heralded single photons in a room-temperature quantum memory, a key step t...
Interfaced single-photon sources and quantum memories for photons together form a foundational compo...
Quantum memories, capable of controllably storing and releasing a photon, are a crucial component fo...
Photonic quantum information technologies rely on quantum memory for long-lived storage and coherent...
Quantum memories are used for storing the quantum mechanical states of photons and release identical...
Optical quantum memories are devices that store and recall quantum light and are vital to the realis...
The non-interacting and high-speed nature of light makes it an ideal carrier of information that is ...