We discuss several recent advances related to optical nanofibres in cold atom systems, including two-colour dipole trap optimisation using an in-loop stochastic artificial neural network machine learner, upper bound limitations on Rydberg atom excitation due to localised ion formation, spectral lineshapes arising from the high intensity evanescent fields, and two-photon processes mediated via the evanescent field of the optical nanofibre
Light-matter interaction processes are extremely attractive for quantum information problems, where ...
We built a new experiment using cold atoms interacting with the light guided by an optical nanofiber...
National audienceUltra-cold atoms systems used as quantum simulators offer an alternative way to sim...
We discuss several recent advances related to optical nanofibres in cold atom systems, including two...
We discuss several recent advances related to optical nanofibres in cold atom systems, including two...
Optical nanofibres (ONFs) are very thin optical waveguides with sub-wavelength diameters. ONFs have ...
New effects can arise in quantum physics when there is strong coupling, ei-ther between atoms and li...
A double-helix optical trapping potential for cold atoms can be straightfor-wardly created inside th...
The integration of cold atomic systems with optical nanofibres is an increasingly important experime...
We built a new experiment using cold atoms interacting with the light guided by an optical nanofiber...
Optical nanofibers (ONFs) have shown promising potential for quantum technology developments. The ti...
Abstract. We report here measurements on a dark magneto-optical trap (DMOT) of 85Rb atoms using an o...
Optical nanofibres (ONF) are used to confine light in subwavelength dimensions. In ONFs, a large eva...
This thesis describes and characterizes a setup to conduct experiments combining the fields of cold ...
This thesis describes and characterizes a setup to conduct experiments combining the fields of cold ...
Light-matter interaction processes are extremely attractive for quantum information problems, where ...
We built a new experiment using cold atoms interacting with the light guided by an optical nanofiber...
National audienceUltra-cold atoms systems used as quantum simulators offer an alternative way to sim...
We discuss several recent advances related to optical nanofibres in cold atom systems, including two...
We discuss several recent advances related to optical nanofibres in cold atom systems, including two...
Optical nanofibres (ONFs) are very thin optical waveguides with sub-wavelength diameters. ONFs have ...
New effects can arise in quantum physics when there is strong coupling, ei-ther between atoms and li...
A double-helix optical trapping potential for cold atoms can be straightfor-wardly created inside th...
The integration of cold atomic systems with optical nanofibres is an increasingly important experime...
We built a new experiment using cold atoms interacting with the light guided by an optical nanofiber...
Optical nanofibers (ONFs) have shown promising potential for quantum technology developments. The ti...
Abstract. We report here measurements on a dark magneto-optical trap (DMOT) of 85Rb atoms using an o...
Optical nanofibres (ONF) are used to confine light in subwavelength dimensions. In ONFs, a large eva...
This thesis describes and characterizes a setup to conduct experiments combining the fields of cold ...
This thesis describes and characterizes a setup to conduct experiments combining the fields of cold ...
Light-matter interaction processes are extremely attractive for quantum information problems, where ...
We built a new experiment using cold atoms interacting with the light guided by an optical nanofiber...
National audienceUltra-cold atoms systems used as quantum simulators offer an alternative way to sim...
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