J
Jakob Reichel
Researcher at Collège de France
Publications - 159
Citations - 10314
Jakob Reichel is an academic researcher from Collège de France. The author has contributed to research in topics: Optical cavity & Ultracold atom. The author has an hindex of 51, co-authored 154 publications receiving 9446 citations. Previous affiliations of Jakob Reichel include Pierre-and-Marie-Curie University & Dana Corporation.
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Bloch oscillations of atoms in an optical potential.
TL;DR: Ultracold cesium atoms are prepared in the ground energy band of the potential induced by an optical standing wave and the momentum distribution of Bloch states and effective masses different from the mass of the free atom is measured.
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Strong atom-field coupling for Bose-Einstein condensates in an optical cavity on a chip.
Yves Colombe,Tilo Steinmetz,Guilhem Dubois,Felix Linke,Felix Linke,David Hunger,Jakob Reichel +6 more
TL;DR: An experiment combining a fibre-based cavity with atom-chip technology enables single-atom cavity quantum electrodynamics experiments with a simplified set-up and realizes the situation of many atoms in a cavity, each of which is identically and strongly coupled to the cavity mode.
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Bose–Einstein condensation on a microelectronic chip
TL;DR: It is demonstrated that the formation of a condensate can be greatly simplified using a microscopic magnetic trap on a chip, and the possibility of manipulating laser-like coherent matter waves with such an integrated atom-optical system holds promise for applications in interferometry, holography, microscopy, atom lithography and quantum information processing.
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Fiber Fabry-Perot cavity with high finesse
TL;DR: In this article, a fiber-based Fabry-Perot cavity with CO2 laser-machined mirrors was realized, which combines very small size, high finesse, small waist and mode volume, and good mode matching between the fiber and cavity modes.
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Atomic Micromanipulation with Magnetic Surface Traps
TL;DR: In this paper, the authors describe manipulation of neutral atoms using the magnetic field of microfabricated current-carrying conductors and demonstrate how this method can be used to achieve adiabatic magnetic transport from one reservoir to another.