Add to ORKGWe demonstrate optical probing of spectrally resolved single Nd^(3+) rare-earth ions in yttrium orthovanadate. The ions are coupled to a photonic crystal resonator and show strong enhancement of the optical emission rate via the Purcell effect, resulting in near radiatively limited single photon emission. The measured high coupling cooperativity between a single photon and the ion allows for the observation of coherent optical Rabi oscillations. This could enable optically controlled spin qubits, quantum logic gates, and spin-photon interfaces for future quantum networks
Solid materials doped with rare-earth ions are considered an attractive platform for quantum informa...
Entanglement between single spins and photons is an important resource in quantum information scienc...
Rare-earth-ion doped crystals are state-of-the-art materials for optical quantum memories and quantu...
We demonstrate optical probing of spectrally resolved single Nd^(3+) rare-earth ions in yttrium orth...
We report a scheme for detecting single rare-earth-ions coupled to an Yttrium Orthosilicate (YSO) na...
We report on detection and coherent optical driving of single Yb^(3+) ions coupled to a nanophotonic...
Quantum light–matter interfaces connecting stationary qubits to photons will enable optical networks...
Distributing entanglement over long distances using optical networks is an intriguing macroscopic qu...
The integration of rare-earth ions in an on-chip photonic platform would enable quantum repeaters an...
An yttrium orthosilicate nanophotonic resonator is fabricated with resonances near the ^4I_(9/2)-^4F...
Rare earth emitters enable critical quantum resources including spin qubits, single photon sources, ...
We report on the coupling of the emission from a single europium-doped nanocrystal to a fiber-based ...
We study the possibility of using single rare-earth ions coupled to a photonic cavity with high coop...
On-chip nanophotonic cavities will advance quantum information science and measurement because they ...
With an assortment of narrow line-width transitions spanning the visible and IR spectrum and long sp...
Solid materials doped with rare-earth ions are considered an attractive platform for quantum informa...
Entanglement between single spins and photons is an important resource in quantum information scienc...
Rare-earth-ion doped crystals are state-of-the-art materials for optical quantum memories and quantu...
We demonstrate optical probing of spectrally resolved single Nd^(3+) rare-earth ions in yttrium orth...
We report a scheme for detecting single rare-earth-ions coupled to an Yttrium Orthosilicate (YSO) na...
We report on detection and coherent optical driving of single Yb^(3+) ions coupled to a nanophotonic...
Quantum light–matter interfaces connecting stationary qubits to photons will enable optical networks...
Distributing entanglement over long distances using optical networks is an intriguing macroscopic qu...
The integration of rare-earth ions in an on-chip photonic platform would enable quantum repeaters an...
An yttrium orthosilicate nanophotonic resonator is fabricated with resonances near the ^4I_(9/2)-^4F...
Rare earth emitters enable critical quantum resources including spin qubits, single photon sources, ...
We report on the coupling of the emission from a single europium-doped nanocrystal to a fiber-based ...
We study the possibility of using single rare-earth ions coupled to a photonic cavity with high coop...
On-chip nanophotonic cavities will advance quantum information science and measurement because they ...
With an assortment of narrow line-width transitions spanning the visible and IR spectrum and long sp...
Solid materials doped with rare-earth ions are considered an attractive platform for quantum informa...
Entanglement between single spins and photons is an important resource in quantum information scienc...
Rare-earth-ion doped crystals are state-of-the-art materials for optical quantum memories and quantu...