Add to ORKGEntanglement between single spins and photons is an important resource in quantum information science, e.g. in quantum networking. Rare-earth ions in dielectric crystals have emerged as a promising candidate for this task. Rare-earth ion doped solids have been used so far mostly as ensemble-based quantum memories. However, they also feature promising properties for single ion detection and manipulation, such as long-lived spins, narrow optical transitions and preservation of coherence properties when inserted in nanostructures. Because of the long lifetimes of the optical tThe goal of this master thesis was to take initial steps towards cavity-enhanced detection of single rare-earth ions in the solid state. A fibre microcavity set-up for us...
Distributing entanglement over long distances using optical networks is an intriguing macroscopic qu...
The interaction of single quantum emitters with an optical cavity enables the realization of efficie...
Erbium dopants in crystals exhibit highly coherent optical transitions well suited for solid-state o...
We report on the coupling of the emission from a single europium-doped nanocrystal to a fiber-based ...
Solid materials doped with rare-earth ions are considered an attractive platform for quantum informa...
This thesis work contributes to the effort of detecting single rare earth ions doped into crystals, ...
Single atoms or solid-state emitters are very promising candidates for building quantum network node...
We report a scheme for detecting single rare-earth-ions coupled to an Yttrium Orthosilicate (YSO) na...
Rare earth emitters enable critical quantum resources including spin qubits, single photon sources, ...
Poster presented at the 5th Conference on Quantum Information in Spain on May 28th, 2019. Rare eart...
We demonstrate optical probing of spectrally resolved single Nd^(3+) rare-earth ions in yttrium orth...
Solid-state defects have emerged as leading candidates for quantum network nodes due to their compat...
Quantum light–matter interfaces connecting stationary qubits to photons will enable optical networks...
Rare-earth-ion doped crystals are an interesting system for quantum computing investigations due to ...
We report on detection and coherent optical driving of single Yb^(3+) ions coupled to a nanophotonic...
Distributing entanglement over long distances using optical networks is an intriguing macroscopic qu...
The interaction of single quantum emitters with an optical cavity enables the realization of efficie...
Erbium dopants in crystals exhibit highly coherent optical transitions well suited for solid-state o...
We report on the coupling of the emission from a single europium-doped nanocrystal to a fiber-based ...
Solid materials doped with rare-earth ions are considered an attractive platform for quantum informa...
This thesis work contributes to the effort of detecting single rare earth ions doped into crystals, ...
Single atoms or solid-state emitters are very promising candidates for building quantum network node...
We report a scheme for detecting single rare-earth-ions coupled to an Yttrium Orthosilicate (YSO) na...
Rare earth emitters enable critical quantum resources including spin qubits, single photon sources, ...
Poster presented at the 5th Conference on Quantum Information in Spain on May 28th, 2019. Rare eart...
We demonstrate optical probing of spectrally resolved single Nd^(3+) rare-earth ions in yttrium orth...
Solid-state defects have emerged as leading candidates for quantum network nodes due to their compat...
Quantum light–matter interfaces connecting stationary qubits to photons will enable optical networks...
Rare-earth-ion doped crystals are an interesting system for quantum computing investigations due to ...
We report on detection and coherent optical driving of single Yb^(3+) ions coupled to a nanophotonic...
Distributing entanglement over long distances using optical networks is an intriguing macroscopic qu...
The interaction of single quantum emitters with an optical cavity enables the realization of efficie...
Erbium dopants in crystals exhibit highly coherent optical transitions well suited for solid-state o...