Add to ORKGThe photon-echo quantum memory is based on a controlled rephasing of the atomic coherence excited by a signal light field in the inhomogeneously broadened resonant line. Here, we demonstrate an active mechanism of the atomic rephasing that provides a perfect retrieval of the stored light field in the photon-echo quantum memory based on the use of arbitrary initial inhomogeneous broadening of the resonant line. We show that the rephasing mechanism can exploit all resonant atoms, thereby maximally increasing an optical depth of the resonant transition, which is one of the critical parameters for the realization of highly efficient quantum memory. We also demonstrate that the rephasing mechanism can be used for various realizations of the phot...
We propose a quantum memory for light based on the optical analog of an NMR gradient echo. The propo...
We propose a photon echo quantum memory scheme using detuned Raman coupling to long lived ground st...
We propose and analyze a quantum memory protocol based on dynamically changing the reso-nance freque...
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...
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...
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...
We have performed a theoretical analysis of the photon-echo-based quantum memory realized recently i...
Here, we propose a solid-state quantum memory that does not require spectral holeburning, instead us...
The non-interacting and high-speed nature of light makes it an ideal carrier of information that is ...
Here, we propose a solid-state quantum memory that does not require spectral holeburning, instead us...
We present a detailed analysis of a quantum memory for photons based on controlled and reversible in...
We develop the theory of an optical quantum memory protocol based on the three pulse photon echo (PE...
We propose a quantum memory for light based on the optical analog of an NMR gradient echo. The propo...
We propose a photon echo quantum memory scheme using detuned Raman coupling to long lived ground st...
We propose and analyze a quantum memory protocol based on dynamically changing the reso-nance freque...
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...
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...
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...
We have performed a theoretical analysis of the photon-echo-based quantum memory realized recently i...
Here, we propose a solid-state quantum memory that does not require spectral holeburning, instead us...
The non-interacting and high-speed nature of light makes it an ideal carrier of information that is ...
Here, we propose a solid-state quantum memory that does not require spectral holeburning, instead us...
We present a detailed analysis of a quantum memory for photons based on controlled and reversible in...
We develop the theory of an optical quantum memory protocol based on the three pulse photon echo (PE...
We propose a quantum memory for light based on the optical analog of an NMR gradient echo. The propo...
We propose a photon echo quantum memory scheme using detuned Raman coupling to long lived ground st...
We propose and analyze a quantum memory protocol based on dynamically changing the reso-nance freque...