Add to ORKGSince the possibility of trapping and cooling neutral atoms, ultracold quantum gases have shifted boundaries in a growing field of modern physics based on the first observation of Bose-Einstein condensates in 1995 and appreciated by the Nobel Prizes in 1997 and 2001. The current developments in the domain of atom optics lead to an utilization of ultracold quantum matter techniques in unique practical applications as high-precision atomic clocks, atom interferometer technologies and inertial sensing instruments for gravity field mapping, underground structure detection, autonomous navigation, as well as precision measurements in fundamental physics. The expectations of even higher precision measurements can be performed by arbitrarily extend...
Cold and ultracold ensembles of atoms are increasingly used in different applications in science and...
International audienceRecent developments in quantum technology have resulted in a new generation of...
The QUANTUS consortium started activities to perform atom interferometry on a sounding rocket in the...
Since the possibility of trapping and cooling neutral atoms, ultracold quantum gases have shifted bo...
Since the possibility of trapping and cooling neutral atoms, ultracold quantum gases have shifted bo...
Quantum sensors based on the interference of cold atoms have advanced to the forefront of precision ...
Quantum technologies are on the rise to change our daily life and thinking triggered by enormous adv...
In this artile we present actual projects concerning high resolution measurements developed for futu...
Cold and ultracold ensembles of atoms are increasingly used in different applications in science and...
Quantum sensors utilising atom interferometry offer new perspectives for future gravity missions. Th...
International audienceQuantum technology based on cold-atom interferometers is showing great promise...
International audienceAbstract Ultracold quantum gases are ideal sources for high-precision space-bo...
Optical interferometers are well known for their high precession in several measurement situations. ...
Atominterferometer erlauben es, Beschleunigungen mit bisher nicht erreichter Präzision zu messen. An...
We present projects for future space missions using new quantum devices based on ultracold atoms. Th...
Cold and ultracold ensembles of atoms are increasingly used in different applications in science and...
International audienceRecent developments in quantum technology have resulted in a new generation of...
The QUANTUS consortium started activities to perform atom interferometry on a sounding rocket in the...
Since the possibility of trapping and cooling neutral atoms, ultracold quantum gases have shifted bo...
Since the possibility of trapping and cooling neutral atoms, ultracold quantum gases have shifted bo...
Quantum sensors based on the interference of cold atoms have advanced to the forefront of precision ...
Quantum technologies are on the rise to change our daily life and thinking triggered by enormous adv...
In this artile we present actual projects concerning high resolution measurements developed for futu...
Cold and ultracold ensembles of atoms are increasingly used in different applications in science and...
Quantum sensors utilising atom interferometry offer new perspectives for future gravity missions. Th...
International audienceQuantum technology based on cold-atom interferometers is showing great promise...
International audienceAbstract Ultracold quantum gases are ideal sources for high-precision space-bo...
Optical interferometers are well known for their high precession in several measurement situations. ...
Atominterferometer erlauben es, Beschleunigungen mit bisher nicht erreichter Präzision zu messen. An...
We present projects for future space missions using new quantum devices based on ultracold atoms. Th...
Cold and ultracold ensembles of atoms are increasingly used in different applications in science and...
International audienceRecent developments in quantum technology have resulted in a new generation of...
The QUANTUS consortium started activities to perform atom interferometry on a sounding rocket in the...