Add to ORKGThe realisation of efficient ion-photon quantum interfaces is an essential step towards developing operational quantum information networks. Individual trapped ions have been shown as promising candidates for quantum information processing nodes, while effective ion manipulation and photonic links between nodes can be realised by deterministic coupling of ions to optical cavities. However, integrating optical cavities into ion traps remains a challenge as the trapping potential is affected by the presence of any dielectric or conductor
Small, controllable, highly accessible quantum systems can serve as probes at the single-quantum lev...
We present a novel system where an optical cavity is integrated with a microfabricated planar-electr...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Physics, 2015.Cataloged from PD...
We study a range of radio-frequency ion trap geometries and investigate the effect of integrating di...
We investigate the distortions of trapping potentials when integrating fiber-tip optical cavities in...
Dataset to paper: "Comparative numerical studies of ion traps with integrated optical cavities&...
We present a novel ion trap design which facilitates the integration of an optical fiber cavity into...
In many quantum information applications quantum bits (qubits) are stored in single trapped atoms or...
Scalable quantum information processing requires efficient coupling between stationary qubits (trapp...
Precise control over internal states of atomic ions in ion traps has been possible for many years en...
We investigate geometries for efficient coupling of single ions to fiber-coupled light fields for ap...
Quantum computing is a promising candidate in the field of advanced computing. This technology is po...
We report a novel miniature Paul ion trap design with an integrated optical fibre cavity which can s...
Quantum technology has the potential to change the way we solve many problems in our daily lives. Pe...
Thesis (Ph.D.)--University of Washington, 2017-03Single trapped ion qubits are excellent candidates ...
Small, controllable, highly accessible quantum systems can serve as probes at the single-quantum lev...
We present a novel system where an optical cavity is integrated with a microfabricated planar-electr...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Physics, 2015.Cataloged from PD...
We study a range of radio-frequency ion trap geometries and investigate the effect of integrating di...
We investigate the distortions of trapping potentials when integrating fiber-tip optical cavities in...
Dataset to paper: "Comparative numerical studies of ion traps with integrated optical cavities&...
We present a novel ion trap design which facilitates the integration of an optical fiber cavity into...
In many quantum information applications quantum bits (qubits) are stored in single trapped atoms or...
Scalable quantum information processing requires efficient coupling between stationary qubits (trapp...
Precise control over internal states of atomic ions in ion traps has been possible for many years en...
We investigate geometries for efficient coupling of single ions to fiber-coupled light fields for ap...
Quantum computing is a promising candidate in the field of advanced computing. This technology is po...
We report a novel miniature Paul ion trap design with an integrated optical fibre cavity which can s...
Quantum technology has the potential to change the way we solve many problems in our daily lives. Pe...
Thesis (Ph.D.)--University of Washington, 2017-03Single trapped ion qubits are excellent candidates ...
Small, controllable, highly accessible quantum systems can serve as probes at the single-quantum lev...
We present a novel system where an optical cavity is integrated with a microfabricated planar-electr...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Physics, 2015.Cataloged from PD...