Add to ORKGWe study theoretically the diffraction of atoms by a standing-wave light field. Conceptually the text is divided into two parts. In the first part we deal with the coherent interaction only. We use a band theoretical approach to describe the laser-atom interaction, and to characterize two-beam resonances (Dopplerons and Bragg resonances). These two-beam resonances are major candidates to develop effective atom beam splitters. We study the interaction with classical light fields as well as with quantum fields. In the second part we take incoherent processes, i.e. spontaneous emission, into account and present a numerical scheme for the solution of the generalized optical Bloch equations. This scheme is based on the split-operator technique, ...
Using Bloch states to describe atomic motion, we show how to calculate the phase shifts associated t...
In a recent experiment [1], it was observed that a sequence of two standing wave square pulses can s...
We investigate the focusing of three-level atoms with a bichromatic standing wave laser field, using...
Atomic diffraction by a laser stationary wave is commonly used to build mirrors and beam splitters f...
Multi-photon Doppleron resonances are investigated for the diffraction of atoms by a classical stand...
This dissertation explores the spatial patterns that evolve dynamically in atomic clouds and beams a...
We present a general formalism for describing the diffraction of an atomic beam by a nearly resonant...
The scattering of atoms by a resonance standing light wave is considered under conditions when the l...
In the first part of this article we attempt to provide a very brief introduction to atom optics. In...
Light pulses have proven to be a powerful and versatile tool to implement beam splitters and mirrors...
Resonance fluorescence of two two-level atoms driven by a coherent laser field propagating parallel ...
A few years ago, diffraction of atoms by double slits and gratings was achieved for the first time, ...
We study interactions of light with a sample of two-level atoms. Quantum statistical effects of dege...
We have developed a novel interferometer for atom de Broglie waves, where amplitude division and rec...
Slow atoms from a magneto-optical trap are used to study diffraction from a near-resonant standing-w...
Using Bloch states to describe atomic motion, we show how to calculate the phase shifts associated t...
In a recent experiment [1], it was observed that a sequence of two standing wave square pulses can s...
We investigate the focusing of three-level atoms with a bichromatic standing wave laser field, using...
Atomic diffraction by a laser stationary wave is commonly used to build mirrors and beam splitters f...
Multi-photon Doppleron resonances are investigated for the diffraction of atoms by a classical stand...
This dissertation explores the spatial patterns that evolve dynamically in atomic clouds and beams a...
We present a general formalism for describing the diffraction of an atomic beam by a nearly resonant...
The scattering of atoms by a resonance standing light wave is considered under conditions when the l...
In the first part of this article we attempt to provide a very brief introduction to atom optics. In...
Light pulses have proven to be a powerful and versatile tool to implement beam splitters and mirrors...
Resonance fluorescence of two two-level atoms driven by a coherent laser field propagating parallel ...
A few years ago, diffraction of atoms by double slits and gratings was achieved for the first time, ...
We study interactions of light with a sample of two-level atoms. Quantum statistical effects of dege...
We have developed a novel interferometer for atom de Broglie waves, where amplitude division and rec...
Slow atoms from a magneto-optical trap are used to study diffraction from a near-resonant standing-w...
Using Bloch states to describe atomic motion, we show how to calculate the phase shifts associated t...
In a recent experiment [1], it was observed that a sequence of two standing wave square pulses can s...
We investigate the focusing of three-level atoms with a bichromatic standing wave laser field, using...