We demonstrate an efficient atomic frequency comb quantum memory based on an impedance-matched nanophotonic cavity fabricated in a Nd doped YVO crystal. Storage of time-bin qubits with 97% fidelity is achieved
I present our progress towards developing optical quantum memories based on photonic crystal cavitie...
Ensemble-based quantum memories are key to developing multiplexed quantum repeaters, able to overcom...
We presentanefficientphoton-echoexperimentbasedonatomicfrequencycombs[Phys.Rev.A79 (2009)052329].Ech...
We demonstrate an efficient atomic frequency comb quantum memory based on an impedance-matched nanop...
Optical quantum memories are essential elements in quantum networks for long-distance distribution o...
Rare-earth-ion doped crystals are state-of-the-art materials for optical quantum memories and quantu...
We design and implement an atomic frequency comb quantum memory for 793-nm wavelength photons using ...
I present quantum nano-photonic devices based on nanophotonic resonators coupled to rare-earth-ions ...
Quantum light-matter interfaces that reversibly map the quantum state of photons onto the quantum st...
Optical quantum memories will enable technologies including long distance quantum communication and ...
The integration of rare-earth ions in an on-chip photonic platform would enable quantum repeaters an...
In this paper, we propose a slow light-enhanced quantum memory with high efficiency based ...
Long-distance quantum communication through optical fibers is currently limited to a few hundreds of...
Rare-earth (RE) doped crystals are promising candidates as quantum memories as they offer coherence ...
Long-lived sub-levels of the electronic ground-state manifold of rare-earth ions in crystals can be ...
I present our progress towards developing optical quantum memories based on photonic crystal cavitie...
Ensemble-based quantum memories are key to developing multiplexed quantum repeaters, able to overcom...
We presentanefficientphoton-echoexperimentbasedonatomicfrequencycombs[Phys.Rev.A79 (2009)052329].Ech...
We demonstrate an efficient atomic frequency comb quantum memory based on an impedance-matched nanop...
Optical quantum memories are essential elements in quantum networks for long-distance distribution o...
Rare-earth-ion doped crystals are state-of-the-art materials for optical quantum memories and quantu...
We design and implement an atomic frequency comb quantum memory for 793-nm wavelength photons using ...
I present quantum nano-photonic devices based on nanophotonic resonators coupled to rare-earth-ions ...
Quantum light-matter interfaces that reversibly map the quantum state of photons onto the quantum st...
Optical quantum memories will enable technologies including long distance quantum communication and ...
The integration of rare-earth ions in an on-chip photonic platform would enable quantum repeaters an...
In this paper, we propose a slow light-enhanced quantum memory with high efficiency based ...
Long-distance quantum communication through optical fibers is currently limited to a few hundreds of...
Rare-earth (RE) doped crystals are promising candidates as quantum memories as they offer coherence ...
Long-lived sub-levels of the electronic ground-state manifold of rare-earth ions in crystals can be ...
I present our progress towards developing optical quantum memories based on photonic crystal cavitie...
Ensemble-based quantum memories are key to developing multiplexed quantum repeaters, able to overcom...
We presentanefficientphoton-echoexperimentbasedonatomicfrequencycombs[Phys.Rev.A79 (2009)052329].Ech...