I present our progress towards developing optical quantum memories based on photonic crystal cavities fabricated in rare-earth-doped crystals. These devices exhibit large spontaneous emission rate enhancement, enabling optical control of single rare-earth ion quantum bits
Quantum photonics provides a powerful toolbox with vast applications ranging from quantum simulation...
This thesis describes a number of coherent processes, such as quantum information processing, superr...
This thesis describes experiments aimed at developing a key component in applications such as quantu...
I present our progress towards developing optical quantum memories based on photonic crystal cavitie...
I present quantum nano-photonic devices based on nanophotonic resonators coupled to rare-earth-ions ...
In this talk I give an overview of our recent work on quantum nano-photonic devices based on rare-ea...
Quantum light-matter interfaces that reversibly map the quantum state of photons onto the quantum st...
I present our progress towards developing on-chip quantum light-matter interfaces like quantum memor...
Rare-earth-ion doped crystals are state-of-the-art materials for optical quantum memories and quantu...
Optical quantum memories will enable technologies including long distance quantum communication and ...
Optical quantum memories are essential elements in quantum networks for long-distance distribution o...
Rare-earth dopants are arguably one of the most studied optical centers in solids, with applications...
Quantum light–matter interfaces connecting stationary qubits to photons will enable optical networks...
Quantum interconnects allow disparate quantum systems to be entangled, leading to more powerful inte...
Gallium arsenide photonic crystal resonators are designed and fabricated for evanescent coupling to ...
Quantum photonics provides a powerful toolbox with vast applications ranging from quantum simulation...
This thesis describes a number of coherent processes, such as quantum information processing, superr...
This thesis describes experiments aimed at developing a key component in applications such as quantu...
I present our progress towards developing optical quantum memories based on photonic crystal cavitie...
I present quantum nano-photonic devices based on nanophotonic resonators coupled to rare-earth-ions ...
In this talk I give an overview of our recent work on quantum nano-photonic devices based on rare-ea...
Quantum light-matter interfaces that reversibly map the quantum state of photons onto the quantum st...
I present our progress towards developing on-chip quantum light-matter interfaces like quantum memor...
Rare-earth-ion doped crystals are state-of-the-art materials for optical quantum memories and quantu...
Optical quantum memories will enable technologies including long distance quantum communication and ...
Optical quantum memories are essential elements in quantum networks for long-distance distribution o...
Rare-earth dopants are arguably one of the most studied optical centers in solids, with applications...
Quantum light–matter interfaces connecting stationary qubits to photons will enable optical networks...
Quantum interconnects allow disparate quantum systems to be entangled, leading to more powerful inte...
Gallium arsenide photonic crystal resonators are designed and fabricated for evanescent coupling to ...
Quantum photonics provides a powerful toolbox with vast applications ranging from quantum simulation...
This thesis describes a number of coherent processes, such as quantum information processing, superr...
This thesis describes experiments aimed at developing a key component in applications such as quantu...