DOIAbstract
We show that laser and maser action is possible using atoms that have been prepared in dressed states. We develop the microscopic theory and derive the Fokker-Planck equation for the field distribution for such a laser (maser) system
We show that laser and maser action is possible using atoms that have been prepared in dressed states. We develop the microscopic theory and derive the Fokker-Planck equation for the field distribution for such a laser (maser) system
Accepcted for publication by J. Opt. A for the special issue on nanolasers and random lasers (to be ...
This dissertation presents a new scheme for cooling atoms by laser: the "velocity selective coherent...
We analyze the dynamics of atom-laser interactions for atoms having multiple, closely spaced, excite...
We show that laser and maser action is possible using atoms that have been prepared in dressed state...
The dressing of atomic states in a strong laser field modifies the structure of the incoherently sca...
Since the 1950's, many devices have been discovered which produce co-herent, monochromatic, ele...
We show that the dressed-atom approach provides a quantitative understanding of the main features of...
We extend the dressed-atom approach to treat the interaction of a laser field with a semiconductor s...
The theory of laser cooling assisted by transverse magnetic field B-t based on the (1+3)-level atomi...
It is shown that thermal energy from a heat source can be converted to useful work in the form of ma...
We discuss radiative corrections to an atomic two-level system subject to an intense driving laser f...
Light can be used to modify and control properties of media, as in the case of electromagnetically i...
Several interesting physical phenomena and industrial applications explained by the dressed photon h...
We present a microscopic laser model for many atoms coupled to a single cavity mode, including the l...
The force acting on a two-level atom in a low-intensity standing laser wave is calculated. On accoun...
Accepcted for publication by J. Opt. A for the special issue on nanolasers and random lasers (to be ...
This dissertation presents a new scheme for cooling atoms by laser: the "velocity selective coherent...
We analyze the dynamics of atom-laser interactions for atoms having multiple, closely spaced, excite...
We show that laser and maser action is possible using atoms that have been prepared in dressed state...
The dressing of atomic states in a strong laser field modifies the structure of the incoherently sca...
Since the 1950's, many devices have been discovered which produce co-herent, monochromatic, ele...
We show that the dressed-atom approach provides a quantitative understanding of the main features of...
We extend the dressed-atom approach to treat the interaction of a laser field with a semiconductor s...
The theory of laser cooling assisted by transverse magnetic field B-t based on the (1+3)-level atomi...
It is shown that thermal energy from a heat source can be converted to useful work in the form of ma...
We discuss radiative corrections to an atomic two-level system subject to an intense driving laser f...
Light can be used to modify and control properties of media, as in the case of electromagnetically i...
Several interesting physical phenomena and industrial applications explained by the dressed photon h...
We present a microscopic laser model for many atoms coupled to a single cavity mode, including the l...
The force acting on a two-level atom in a low-intensity standing laser wave is calculated. On accoun...
Accepcted for publication by J. Opt. A for the special issue on nanolasers and random lasers (to be ...
This dissertation presents a new scheme for cooling atoms by laser: the "velocity selective coherent...
We analyze the dynamics of atom-laser interactions for atoms having multiple, closely spaced, excite...
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