Add to ORKGOwing to the low-gravity conditions in space, space-borne laboratories enable experiments with extended free-fall times. Because Bose–Einstein condensates have an extremely low expansion energy, space-borne atom interferometers based on Bose–Einstein condensation have the potential to have much greater sensitivity to inertial forces than do similar ground-based interferometers. On 23 January 2017, as part of the sounding-rocket mission MAIUS-1, we created Bose–Einstein condensates in space and conducted 110 experiments central to matter-wave interferometry, including laser cooling and trapping of atoms in the presence of the large accelerations experienced during launch. Here we report on experiments conducted during the six minutes of in-s...
Quantum sensors utilising atom interferometry offer new perspectives for future gravity missions. Th...
International audienceWe analyze the advantages of using ultra-cold coherent sources of atoms for ma...
We propose a new atom-interferometry scheme for measuring the value and derivatives of the gravitati...
Owing to the low-gravity conditions in space, space-borne laboratories enable experiments with exten...
Quantum technologies are on the rise to change our daily life and thinking triggered by enormous adv...
On 23rd of January 2017 the first Bose-Einstein Condensate (BEC) in Space was created on-board the s...
Quantum sensors based on the interference of cold atoms have advanced to the forefront of precision ...
International audienceAbstract Ultracold quantum gases are ideal sources for high-precision space-bo...
The capability to reach ultracold atomic temperatures in compact instruments has recently been exten...
International audienceRecent developments in quantum technology have resulted in a new generation of...
Quantum sensors based on atom interferometry are precise measurement devices whose ultimate performa...
Bose-Einstein condensates (BECs) in free fall constitute a promising source for space-borne interfer...
We propose a new atom-interferometric scheme for measuring the value and derivatives of the gravitat...
Since the possibility of trapping and cooling neutral atoms, ultracold quantum gases have shifted bo...
International audienceQuantum technology based on cold-atom interferometers is showing great promise...
Quantum sensors utilising atom interferometry offer new perspectives for future gravity missions. Th...
International audienceWe analyze the advantages of using ultra-cold coherent sources of atoms for ma...
We propose a new atom-interferometry scheme for measuring the value and derivatives of the gravitati...
Owing to the low-gravity conditions in space, space-borne laboratories enable experiments with exten...
Quantum technologies are on the rise to change our daily life and thinking triggered by enormous adv...
On 23rd of January 2017 the first Bose-Einstein Condensate (BEC) in Space was created on-board the s...
Quantum sensors based on the interference of cold atoms have advanced to the forefront of precision ...
International audienceAbstract Ultracold quantum gases are ideal sources for high-precision space-bo...
The capability to reach ultracold atomic temperatures in compact instruments has recently been exten...
International audienceRecent developments in quantum technology have resulted in a new generation of...
Quantum sensors based on atom interferometry are precise measurement devices whose ultimate performa...
Bose-Einstein condensates (BECs) in free fall constitute a promising source for space-borne interfer...
We propose a new atom-interferometric scheme for measuring the value and derivatives of the gravitat...
Since the possibility of trapping and cooling neutral atoms, ultracold quantum gases have shifted bo...
International audienceQuantum technology based on cold-atom interferometers is showing great promise...
Quantum sensors utilising atom interferometry offer new perspectives for future gravity missions. Th...
International audienceWe analyze the advantages of using ultra-cold coherent sources of atoms for ma...
We propose a new atom-interferometry scheme for measuring the value and derivatives of the gravitati...