Add to ORKGWe present the characterization of the AC Stark shift in a rare-earth ion doped photonic crystal cavity. The strength of the interaction creates opportunities within previously inaccessible regimes of all-optical quantum memory protocols
Rare-earth-ion doped crystals are an interesting system for quantum computing investigations due to ...
This thesis describes a number of coherent processes, such as quantum information processing, superr...
We demonstrate experimentally and theoretically a controllable way of shifting the frequency of an o...
We present the characterization of the AC Stark shift in a rare-earth ion doped photonic crystal cav...
On-chip nanophotonic cavities will advance quantum information science and measurement because they ...
Quantum interconnects allow disparate quantum systems to be entangled, leading to more powerful inte...
I present our progress towards developing optical quantum memories based on photonic crystal cavitie...
Quantum networks will enable a variety of applications, from secure communication and precision meas...
Optical quantum memories will enable technologies including long distance quantum communication and ...
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 are essential elements in quantum networks for long-distance distribution o...
We present the experimental demonstration of light storage towards the single photon level at a long...
Rare-earth ions doped in crystals are renowned for their excellent coherence properties and large in...
In this thesis, aspects of the use of cryogenically cooled rare-earth-ion-doped crystals in the fiel...
Rare-earth-ion doped crystals are an interesting system for quantum computing investigations due to ...
This thesis describes a number of coherent processes, such as quantum information processing, superr...
We demonstrate experimentally and theoretically a controllable way of shifting the frequency of an o...
We present the characterization of the AC Stark shift in a rare-earth ion doped photonic crystal cav...
On-chip nanophotonic cavities will advance quantum information science and measurement because they ...
Quantum interconnects allow disparate quantum systems to be entangled, leading to more powerful inte...
I present our progress towards developing optical quantum memories based on photonic crystal cavitie...
Quantum networks will enable a variety of applications, from secure communication and precision meas...
Optical quantum memories will enable technologies including long distance quantum communication and ...
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 are essential elements in quantum networks for long-distance distribution o...
We present the experimental demonstration of light storage towards the single photon level at a long...
Rare-earth ions doped in crystals are renowned for their excellent coherence properties and large in...
In this thesis, aspects of the use of cryogenically cooled rare-earth-ion-doped crystals in the fiel...
Rare-earth-ion doped crystals are an interesting system for quantum computing investigations due to ...
This thesis describes a number of coherent processes, such as quantum information processing, superr...
We demonstrate experimentally and theoretically a controllable way of shifting the frequency of an o...