Add to ORKGOptical characterization of antirelaxation coatings with regard to their applications in coherent spectroscopy and LIAD experiments is presented. A simple method, based on the recording of the fluorescence intensity of the Rb alkali atoms during resonant light pulse irradiation is used for comparison of the antirelaxation properties of the coatings. The LIAD yield and dynamics are measured by registration of the 780 nm Rb line transmission. The comparison of the parameters of PDMS coatings prepared with two different solutions in ether (PDMS 2% and PDMS 5%) shows that when illuminating with such LED intensity at which the LIAD efficiency is equal in the two cells, the light induced Rb vapor density changes are about an order of magnitude sl...
We report the first experimental evidence of nonthermal light induced atomic desorption (LIAD) from ...
We stabilize the Rb vapor density above its thermal equilibrium value in sealed glass cells, which a...
Many technologies based on cells containing alkali-metal atomic vapor benefit from the use of antire...
Optical characterization of antirelaxation coatings with regard to their applications in coherent sp...
Antirelaxation coatings (ARC) are used in optical cells containing alkali metal vapor to reduce the ...
We describe a theoretical model, based on a density matrix and the Liouville equation, for the inves...
Light-induced atomic desorption (LIAD) is a non-thermal process in which atoms adsorbed at a surface...
A better theoretical understanding of the atom – surface interactions and of the experimental conseq...
The dynamics of Light-Induced Atomic Desorption (LIAD) in 6 cells with different coatings (PDMS coat...
An investigation of the influence of light-induced atomic desorption (LIAD) on the transmission spec...
Abstract In this work, we report on our investigations on LIAD (Light Induced Atomic ...
Open AccessMany technologies based on cells containing alkali-metal atomic vapor benefit from the us...
A hybrid antireflective coating combining homogeneous layers and linear gradient refractive index la...
We report the first experimental evidence of nonthermal light induced atomic desorption (LIAD) from ...
We stabilize the Rb vapor density above its thermal equilibrium value in sealed glass cells, which a...
Many technologies based on cells containing alkali-metal atomic vapor benefit from the use of antire...
Optical characterization of antirelaxation coatings with regard to their applications in coherent sp...
Antirelaxation coatings (ARC) are used in optical cells containing alkali metal vapor to reduce the ...
We describe a theoretical model, based on a density matrix and the Liouville equation, for the inves...
Light-induced atomic desorption (LIAD) is a non-thermal process in which atoms adsorbed at a surface...
A better theoretical understanding of the atom – surface interactions and of the experimental conseq...
The dynamics of Light-Induced Atomic Desorption (LIAD) in 6 cells with different coatings (PDMS coat...
An investigation of the influence of light-induced atomic desorption (LIAD) on the transmission spec...
Abstract In this work, we report on our investigations on LIAD (Light Induced Atomic ...
Open AccessMany technologies based on cells containing alkali-metal atomic vapor benefit from the us...
A hybrid antireflective coating combining homogeneous layers and linear gradient refractive index la...
We report the first experimental evidence of nonthermal light induced atomic desorption (LIAD) from ...
We stabilize the Rb vapor density above its thermal equilibrium value in sealed glass cells, which a...
Many technologies based on cells containing alkali-metal atomic vapor benefit from the use of antire...