International audienceWe present the perspective of using atom interferometry for gravitational wave (GW) detection in the mHz to about 10 Hz frequency band. We focus on light-pulse atom interferometers which have been subject to intense developments in the last 25 years. We calculate the effect of the GW on the atom interferometer and present in details the atomic gradiometer configuration which has retained more attention recently. The principle of such a detector is to use free falling atoms to measure the phase of a laser, which is modified by the GW. We highlight the potential benefits of using atom interferometry compared to optical interferometry as well as the challenges which remain for the realization of an atom interferometry bas...
The output of a simple Mach-Zehnder atom interferometer (with light field beam splitters) is studied...
International audienceWe present the MIGA experiment, an underground long baseline atom interferomet...
In this work we study the influence of the Newtonian noise on atom interferometers applied to the de...
International audienceWe present the perspective of using atom interferometry for gravitational wave...
The recent detections of gravitational waves (GW) by the LIGO and VIRGO Collaborations opened a new ...
Atom interferometry promises to extend the detection bandwidth of GW detectors in the mid-frequency ...
We propose two distinct atom interferometer gravitational wave detectors, one terrestrial and anothe...
We investigate the possibility to use atom interferometers to detect gravitational waves. We discuss...
After a short review of the properties of gravitational waves as described in Einstein genertal rela...
International audienceWe propose a new detection strategy for gravitational waves (GWs) below few He...
In recent years, atom interferometry and atomic clocks have made impressive gains in sensitivity and...
Quantum sensors exploiting matter waves interferometry promise to realize a new generation of Gravit...
This report presents the results of the 2012-2013 NASA Institute for Advanced Concepts (NIAC) Phase ...
The output of a simple Mach-Zehnder atom interferometer (with light field beam splitters) is studied...
International audienceWe present the MIGA experiment, an underground long baseline atom interferomet...
In this work we study the influence of the Newtonian noise on atom interferometers applied to the de...
International audienceWe present the perspective of using atom interferometry for gravitational wave...
The recent detections of gravitational waves (GW) by the LIGO and VIRGO Collaborations opened a new ...
Atom interferometry promises to extend the detection bandwidth of GW detectors in the mid-frequency ...
We propose two distinct atom interferometer gravitational wave detectors, one terrestrial and anothe...
We investigate the possibility to use atom interferometers to detect gravitational waves. We discuss...
After a short review of the properties of gravitational waves as described in Einstein genertal rela...
International audienceWe propose a new detection strategy for gravitational waves (GWs) below few He...
In recent years, atom interferometry and atomic clocks have made impressive gains in sensitivity and...
Quantum sensors exploiting matter waves interferometry promise to realize a new generation of Gravit...
This report presents the results of the 2012-2013 NASA Institute for Advanced Concepts (NIAC) Phase ...
The output of a simple Mach-Zehnder atom interferometer (with light field beam splitters) is studied...
International audienceWe present the MIGA experiment, an underground long baseline atom interferomet...
In this work we study the influence of the Newtonian noise on atom interferometers applied to the de...
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