Add to ORKGWe develop the theory of an optical quantum memory protocol based on the three pulse photon echo (PE) in an optically dense medium with controlled reversible inhomogeneous broadening (CRIB). The wave-function of the retrieved photon echo field is derived explicitly as a function of an arbitrary input Data light field. The storage and retrieval of time-bin qubit states based on the described quantum memory is discussed, and it is shown that the memory allows to measure the path length difference in an imbalanced interferometer using short light pulses
The photon-echo quantum memory is based on a controlled rephasing of the atomic coherence excited by...
Quantum optical memory implies the storage of quantum state of light in an atomic ensemble and its r...
In the domain of quantum communication, one of the main challenges is the distribution of entangleme...
Quantum memories based on the photon-echo principle (with controlled reversible inhomogeneous broade...
Quantum memories based on the photon-echo principle (with controlled reversible inhomogeneous broade...
The non-interacting and high-speed nature of light makes it an ideal carrier of information that is ...
We present a detailed analysis of a quantum memory for photons based on controlled and reversible in...
We have performed a theoretical analysis of the photon-echo-based quantum memory realized recently i...
The photon-echo quantum memory is based on a controlled rephasing of the atomic coherence excited by...
We investigated the preservation of information encoded into the relative phase and amplitudes of op...
We have performed a theoretical analysis of the photon-echo-based quantum memory realized recently i...
We have performed a theoretical analysis of the photon-echo-based quantum memory realized recently i...
The photon-echo quantum memory is based on a controlled rephasing of the atomic coherence excited by...
We have performed a theoretical analysis of the photon-echo-based quantum memory realized recently i...
The photon-echo quantum memory is based on a controlled rephasing of the atomic coherence excited by...
The photon-echo quantum memory is based on a controlled rephasing of the atomic coherence excited by...
Quantum optical memory implies the storage of quantum state of light in an atomic ensemble and its r...
In the domain of quantum communication, one of the main challenges is the distribution of entangleme...
Quantum memories based on the photon-echo principle (with controlled reversible inhomogeneous broade...
Quantum memories based on the photon-echo principle (with controlled reversible inhomogeneous broade...
The non-interacting and high-speed nature of light makes it an ideal carrier of information that is ...
We present a detailed analysis of a quantum memory for photons based on controlled and reversible in...
We have performed a theoretical analysis of the photon-echo-based quantum memory realized recently i...
The photon-echo quantum memory is based on a controlled rephasing of the atomic coherence excited by...
We investigated the preservation of information encoded into the relative phase and amplitudes of op...
We have performed a theoretical analysis of the photon-echo-based quantum memory realized recently i...
We have performed a theoretical analysis of the photon-echo-based quantum memory realized recently i...
The photon-echo quantum memory is based on a controlled rephasing of the atomic coherence excited by...
We have performed a theoretical analysis of the photon-echo-based quantum memory realized recently i...
The photon-echo quantum memory is based on a controlled rephasing of the atomic coherence excited by...
The photon-echo quantum memory is based on a controlled rephasing of the atomic coherence excited by...
Quantum optical memory implies the storage of quantum state of light in an atomic ensemble and its r...
In the domain of quantum communication, one of the main challenges is the distribution of entangleme...