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SAI: a compact atom interferometer for future space missions

by de Angelis, Marella , Hartwig, Jonas , K\{ae}nemann, Thorben , Schleich, Wolfgang P. , Schmidt, Malte , Senger, Alexander , Dittus, Hansjorg , Bouyer, Philippe , Stern, Guillaume , Tino, Guglielmo M. , L\{ae}mmerzahl, Claus , Prevedelli, Marco , Inguscio, Massimo , Walser, Reinhold , Cacciapuoti, Luigi , Peters, Achim , Bongs, Kai , Landragin, Arnaud , Kajari, Endre , Giorgini, Antonio , Sorrentino, Fiodor , Ertmer, Wolfgang , Herrmann, Sven , Hauth, Matthias , Sengstok, Klaus , Santos, Frank Pereira Dos , Rasel, Ernst M. , Modugno, Giovanni

in Physics / Space Physics

2010

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SAI: a compact atom interferometer for future space missions

in Physics / Space Physics

2010

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SAI: a compact atom interferometer for future space missions

in Physics / Space Physics

2010

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Journal Article

SAI: a compact atom interferometer for future space missions

de Angelis, Marella,

Hartwig, Jonas,

K\{ae}nemann, Thorben,

Schleich, Wolfgang P.,

Schmidt, Malte,

Senger, Alexander,

Dittus, Hansjorg,

Bouyer, Philippe,

Stern, Guillaume,

Tino, Guglielmo M.,

L\{ae}mmerzahl, Claus,

Prevedelli, Marco,

Inguscio, Massimo,

Walser, Reinhold,

Cacciapuoti, Luigi,

Peters, Achim,

Bongs, Kai,

Landragin, Arnaud,

Kajari, Endre,

Giorgini, Antonio,

Sorrentino, Fiodor,

Ertmer, Wolfgang,

Herrmann, Sven,

Hauth, Matthias,

Sengstok, Klaus,

Santos, Frank Pereira Dos,

Rasel, Ernst M.,

Modugno, Giovanni

2010

Overview

Atom interferometry represents a quantum leap in the technology for the ultra-precise monitoring of accelerations and rotations and, therefore, for all the science that relies on the latter quantities. These sensors evolved from a new kind of optics based on matter-waves rather than light-waves and might result in an advancement of the fundamental detection limits by several orders of magnitude. Matter-wave optics is still a young, but rapidly progressing science. The Space Atom Interferometer project (SAI), funded by the European Space Agency, in a multi-pronged approach aims to investigate both experimentally and theoretically the various aspects of placing atom interferometers in space: the equipment needs, the realistically expected performance limits and potential scientific applications in a micro-gravity environment considering all aspects of quantum, relativistic and metrological sciences. A drop-tower compatible prototype of a single-axis atom interferometry accelerometer is under construction. At the same time the team is studying new schemes, e.g. based on degenerate quantum gases as source for the interferometer. A drop-tower compatible atom interferometry acceleration sensor prototype has been designed, and the manufacturing of its subsystems has been started. A compact modular laser system for cooling and trapping rubidium atoms has been assembled. A compact Raman laser module, featuring outstandingly low phase noise, has been realized. Possible schemes to implement coherent atomic sources in the atom interferometer have been experimentally demonstrated.

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Publisher

Springer

Subject

Physics

/ Space Physics