Timothé Estrampes
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View article: Delta-kick collimation of heteronuclear Feshbach molecules
Delta-kick collimation of heteronuclear Feshbach molecules Open
We present a theoretical study of delta-kick collimation (DKC) applied to heteronuclear Feshbach molecules, focusing on both condensed and thermal ensembles across various interaction and temperature regimes. We demonstrate that DKC enable…
View article: Apparatus for quantum-mixture research in microgravity
Apparatus for quantum-mixture research in microgravity Open
Experiments with ultracold quantum gases are a rapidly advancing research field with many applications in fundamental physics and quantum technology. Here, we report on a high-flux generation of Bose-Einstein condensate mixtures of $^{41}$…
View article: Space magnetometry with a differential atom interferometer
Space magnetometry with a differential atom interferometer Open
Atom interferometers deployed in space are excellent tools for high precision measurements, navigation, or Earth observation. In particular, differential interferometric setups feature common-mode noise suppression and enable reliable meas…
View article: High-flux source system for matter-wave interferometry exploiting tunable interactions
High-flux source system for matter-wave interferometry exploiting tunable interactions Open
Atom interferometers allow determining inertial effects to high accuracy. Quantum-projection noise as well as systematic effects impose demands on large atomic flux as well as ultralow expansion rates. Here we report on a high-flux source …
View article: Quantum Gas Mixtures and Dual-Species Atom Interferometry in Space
Quantum Gas Mixtures and Dual-Species Atom Interferometry in Space Open
The capability to reach ultracold atomic temperatures in compact instruments has recently been extended into space. Ultracold temperatures amplify quantum effects, while free-fall allows further cooling and longer interactions time with gr…