Add to ORKGAtom interferometry in microgravity o�ers the possibility to perform high precision measurements of inertial forces complementary to experiments based on classical test masses. The ultimate goal is to perform these quantum measurements in space on board dedicated satellite missions. To reach this, a series of pathfinder microgravity experiments with cold atoms were build. The latest installment of these are conducted on sounding rockets. Here we give a short motivation of atom interferometry in space, an overview of the techniques used, and an introduction of the current mission MAIUS-1
International audienceAtom interferometry has hugely benefitted from advances made in cold atom phys...
The QUANTUS consortium started activities to perform atom interferometry on a sounding rocket in the...
International audienceDevelopments in atom interferometry have led to atomic inertial sensors with e...
Matter-wave interferometers based on Bose-Einstein condensates are exquisite tools for precision mea...
International audienceQuantum technology based on cold-atom interferometers is showing great promise...
Inertial sensors, which often employ a mass-spring system, typically perform a relative measurement ...
International audienceThis paper presents the current status and future prospects of the Space Atom ...
The QUANTUS consortium started activities to perform atom interferometry on a sounding rocket in the...
Laser systems with precise and accurate frequencies are one of the key elements in modern precision ...
This paper presents the current status and future prospects of the Space Atom Interferometer project...
Atom interferometry represents a quantum leap in the technology for the ultraprecise monitoring of a...
International audienceAtom interferometry represents a quantum leap in the technology for the ultra-...
The past three decades have shown dramatic progress in the ability to manipulate and coherently cont...
International audienceAtom interferometry has hugely benefitted from advances made in cold atom phys...
The QUANTUS consortium started activities to perform atom interferometry on a sounding rocket in the...
International audienceDevelopments in atom interferometry have led to atomic inertial sensors with e...
Matter-wave interferometers based on Bose-Einstein condensates are exquisite tools for precision mea...
International audienceQuantum technology based on cold-atom interferometers is showing great promise...
Inertial sensors, which often employ a mass-spring system, typically perform a relative measurement ...
International audienceThis paper presents the current status and future prospects of the Space Atom ...
The QUANTUS consortium started activities to perform atom interferometry on a sounding rocket in the...
Laser systems with precise and accurate frequencies are one of the key elements in modern precision ...
This paper presents the current status and future prospects of the Space Atom Interferometer project...
Atom interferometry represents a quantum leap in the technology for the ultraprecise monitoring of a...
International audienceAtom interferometry represents a quantum leap in the technology for the ultra-...
The past three decades have shown dramatic progress in the ability to manipulate and coherently cont...
International audienceAtom interferometry has hugely benefitted from advances made in cold atom phys...
The QUANTUS consortium started activities to perform atom interferometry on a sounding rocket in the...
International audienceDevelopments in atom interferometry have led to atomic inertial sensors with e...