Add to ORKGThe propagation of light through an ultracold atomic gas is the main topic of the present work. The thesis consists of two parts. In Part I (Chapters 1,2,3), we give a complete description of the 1D photonic bands of a MI of two-level atoms paying attention to both band diagrams and reflectivity spectra. The role of regular periodicity of the system is addressed within a polariton formalism. The scattering on defects inside lattices of three-level atoms is also studied in view of optical detection of impurities in such structures. The light is used as a probe of systems engineered by the use of other laser beams. Part II (Chapters 4,5) is devoted to the development of a general framework for the time-dependent processing of a propagating...
We study interactions of light with a sample of two-level atoms. Quantum statistical effects of dege...
We have constructed a tapered magnetic atom guide that is integrated with a magneto-optical trap. We...
International audienceWe experimentally study the photonic properties of a cold-atom sample trapped ...
This research work aims to analyze light propagation in resonant cold atomic gas enviroment. When we...
We study radiation-matter interaction in a system of ultracold atoms trapped in an optical lattice i...
With ready access to massive computer clusters we may now study light propagation in a dense cold at...
2020 Spring.Includes bibliographical references.This dissertation describes experiments and calculat...
The absorptive and dispersive properties of a Doppler-broadened vapour of rubidium atoms is investig...
An analytical method based on a two-mode approximation is here developed to study the optical respon...
We have studied stationary and quasistationary signal light pulses in cold Λ-type atomic media drive...
We experimentally investigate the Bragg reflection of light at one-dimensionally ordered atomic stru...
This thesis presents theoretical models and results of numerical simulations describing the propagat...
An optical lattice is a periodic potential for atoms, created using a standing wave pattern of lig...
The light wave propagating in a dispersive medium can be formularized as electromagnetic (EM) fields...
The absorptive and dispersive properties of a Doppler-broadened vapour of rubidium atoms is investig...
We study interactions of light with a sample of two-level atoms. Quantum statistical effects of dege...
We have constructed a tapered magnetic atom guide that is integrated with a magneto-optical trap. We...
International audienceWe experimentally study the photonic properties of a cold-atom sample trapped ...
This research work aims to analyze light propagation in resonant cold atomic gas enviroment. When we...
We study radiation-matter interaction in a system of ultracold atoms trapped in an optical lattice i...
With ready access to massive computer clusters we may now study light propagation in a dense cold at...
2020 Spring.Includes bibliographical references.This dissertation describes experiments and calculat...
The absorptive and dispersive properties of a Doppler-broadened vapour of rubidium atoms is investig...
An analytical method based on a two-mode approximation is here developed to study the optical respon...
We have studied stationary and quasistationary signal light pulses in cold Λ-type atomic media drive...
We experimentally investigate the Bragg reflection of light at one-dimensionally ordered atomic stru...
This thesis presents theoretical models and results of numerical simulations describing the propagat...
An optical lattice is a periodic potential for atoms, created using a standing wave pattern of lig...
The light wave propagating in a dispersive medium can be formularized as electromagnetic (EM) fields...
The absorptive and dispersive properties of a Doppler-broadened vapour of rubidium atoms is investig...
We study interactions of light with a sample of two-level atoms. Quantum statistical effects of dege...
We have constructed a tapered magnetic atom guide that is integrated with a magneto-optical trap. We...
International audienceWe experimentally study the photonic properties of a cold-atom sample trapped ...