Controlling molecules with lasers and lasers with molecules

By removing the laser frequencies corresponding to the excitation of the v X = 0 level, we realize a dark state for the shaped femtosec- ond laser, leading to an accumulation of

as real time measurement of low frequency molecular vibrations, study of femtosecond processes without the help of ultrashort pulses, ultrahigh field irradiation... This

rate optical correlation spectroscopic approach to obtaining quantitative information on the ultrafast relaxation dynamics of hot carriers in semiconductors.. [2-4] and

an image is projected onto the photoaddressing layer, the photoconductivity increases in the illuminated areas and the main applied voltage falls across the liquid crystal to make

After a brief historical review of laser cooling and Bose-Einstein condensation, we present important applications of ultra cold atoms, including time and frequency metrology,

[1] I. Mosk, Focusing Coherent Light through Opaque Strongly Scattering Media, Opt. Mosk, Universal Optimal Transmission of Light through Disordered Materials, Phys.

where more modes are brought above threshold when a microwave modulation different from the round-trip frequency is applied. The difference here comes from the

The operation of the laser under different dispersion conditions revealed a typical scenario of when a corrective Gaussian-top profile is applied on the filter: when anomalous GVD