Add to ORKGWe are investigating the possibilities of using neutral mercury as a new species to realize a highly accurate atomic clock using the non-perturbing dipole lattice trapping scheme. Typically, accuracy below 10-17 is targeted, which would make neutral mercury an interesting candidate for a redefinition of the SI second. This paper presents our on-going work towards the realization of an optical lattice clock using neutral mercury. We will describe a 254 nm laser source delivering several hundreds of milliWatts at this wavelength with a suitably low frequency noise for laser cooling and magneto-optic trapping. We will describe our vacuum system for magneto-optic trap and report on the status of our work regarding magneto-optic trapping of merc...
International audienceWe report direct laser spectroscopy of the S01-P03 transition at 265.6 nm in f...
Optical clocks have changed time and frequency metrology since the beginning of the 2000’s. In my th...
We study the trap depth requirement for the realization of an optical clock using atoms confined in ...
We are investigating the possibilities of using neutral mercury as a new species to realize a highly...
In this dissertation I present theory and experimental results obtained in the Jones research group ...
We have performed for the first time direct laser spectroscopy of the 1S0-3P0 optical clock transiti...
We report direct laser spectroscopy of the S01−P03 transition at 265.6 nm in fermionic isotopes of n...
Thesis on the subject of lasercooling and trapping of neutral mercury for the purpose of making a la...
In this dissertation I present experimental results obtained on the mercury optical clock project in...
This thesis presents the development of a high-accuracy optical frequency standard based on neutral ...
The first two chapters of thesis describe the basics of optical standards and its applications. High...
Due to its low sensitivity to blackbody radiation, neutral mercury is a good candidate for the most ...
L’objet de cette thèse est le développement d’un standard de fréquence optique base sur l’atome de m...
This thesis presents the development of a high-accuracy optical frequency standard based on neutral ...
International audienceWe present details on the ultraviolet lattice spectroscopy of the (6s2) 1S0 (6...
International audienceWe report direct laser spectroscopy of the S01-P03 transition at 265.6 nm in f...
Optical clocks have changed time and frequency metrology since the beginning of the 2000’s. In my th...
We study the trap depth requirement for the realization of an optical clock using atoms confined in ...
We are investigating the possibilities of using neutral mercury as a new species to realize a highly...
In this dissertation I present theory and experimental results obtained in the Jones research group ...
We have performed for the first time direct laser spectroscopy of the 1S0-3P0 optical clock transiti...
We report direct laser spectroscopy of the S01−P03 transition at 265.6 nm in fermionic isotopes of n...
Thesis on the subject of lasercooling and trapping of neutral mercury for the purpose of making a la...
In this dissertation I present experimental results obtained on the mercury optical clock project in...
This thesis presents the development of a high-accuracy optical frequency standard based on neutral ...
The first two chapters of thesis describe the basics of optical standards and its applications. High...
Due to its low sensitivity to blackbody radiation, neutral mercury is a good candidate for the most ...
L’objet de cette thèse est le développement d’un standard de fréquence optique base sur l’atome de m...
This thesis presents the development of a high-accuracy optical frequency standard based on neutral ...
International audienceWe present details on the ultraviolet lattice spectroscopy of the (6s2) 1S0 (6...
International audienceWe report direct laser spectroscopy of the S01-P03 transition at 265.6 nm in f...
Optical clocks have changed time and frequency metrology since the beginning of the 2000’s. In my th...
We study the trap depth requirement for the realization of an optical clock using atoms confined in ...