Add to ORKGWe present an ion trap with an integrated fiber cavity, designed for strong coupling at the level of single ions and photons. The cavity is aligned to the axis of a miniature linear Paul trap, enabling simultaneous coupling of multiple ions to the cavity field. We simulate how charges on the fiber mirrors affect the trap potential, and we test these predictions with an ion trapped in the cavity. Furthermore, we measure micromotion and heating rates in the setup
<div>The data provided is the data used in 11 of the figures in the research paper. Each sheet in t...
The realisation of efficient ion-photon quantum interfaces is an essential step towards developing o...
We have built and characterized a novel linear ion trap. Its small horizontal electrode separation o...
We present an ion trap with an integrated fiber cavity, designed for strong coupling at the level of...
We present a novel ion trap design which facilitates the integration of an optical fiber cavity into...
We present a numerical study of a microelectromechanical-system-based design of a fiber cavity integ...
Precise control over internal states of atomic ions in ion traps has been possible for many years en...
We present and characterize fiber mirrors and a miniaturized ion-trap design developed to integrate ...
We investigate geometries for efficient coupling of single ions to fiber-coupled light fields for ap...
We report a novel miniature Paul ion trap design with an integrated optical fibre cavity which can s...
Scalable quantum information processing requires efficient coupling between stationary qubits (trapp...
We investigate the coupling of a single trapped ion to a miniature optical cavity operating in the u...
This thesis describes the first experimentally achieved coupling of a single atomic ion to an optica...
Abstract Trapped ions are a promising platform for the deployment of quantum technologies. However, ...
We investigate the distortions of trapping potentials when integrating fiber-tip optical cavities in...
<div>The data provided is the data used in 11 of the figures in the research paper. Each sheet in t...
The realisation of efficient ion-photon quantum interfaces is an essential step towards developing o...
We have built and characterized a novel linear ion trap. Its small horizontal electrode separation o...
We present an ion trap with an integrated fiber cavity, designed for strong coupling at the level of...
We present a novel ion trap design which facilitates the integration of an optical fiber cavity into...
We present a numerical study of a microelectromechanical-system-based design of a fiber cavity integ...
Precise control over internal states of atomic ions in ion traps has been possible for many years en...
We present and characterize fiber mirrors and a miniaturized ion-trap design developed to integrate ...
We investigate geometries for efficient coupling of single ions to fiber-coupled light fields for ap...
We report a novel miniature Paul ion trap design with an integrated optical fibre cavity which can s...
Scalable quantum information processing requires efficient coupling between stationary qubits (trapp...
We investigate the coupling of a single trapped ion to a miniature optical cavity operating in the u...
This thesis describes the first experimentally achieved coupling of a single atomic ion to an optica...
Abstract Trapped ions are a promising platform for the deployment of quantum technologies. However, ...
We investigate the distortions of trapping potentials when integrating fiber-tip optical cavities in...
<div>The data provided is the data used in 11 of the figures in the research paper. Each sheet in t...
The realisation of efficient ion-photon quantum interfaces is an essential step towards developing o...
We have built and characterized a novel linear ion trap. Its small horizontal electrode separation o...