Add to ORKGWe report on ultracold atomic collision experiments utilizing frequency-chirped laser light. A rapid chirp below the atomic resonance results in adiabatic excitation to an attractive molecular potential over a wide range of internuclear separation. This leads to a transient inelastic collision rate which is large compared to that obtained with fixed-frequency excitation. The combination of high efficiency and temporal control demonstrates the benefit of applying the techniques of coherent control to the ultracold domain
In the ultracold regime, where the interactions between atoms become quantum mechanical in nature, w...
Whenever scientific tools are significantly advanced; new discoveries soon follow. My thesis work re...
This paper reviews recent progress in experiments to control quantum dynamics in condensed phase and...
We report on ultracold atomic collision experiments utilizing frequency-chirped laser light. A rapid...
We report on the dynamics of ultracold collisions induced by near-resonant frequency-chirped light. ...
We investigate the application of the techniques of coherent control to ultracold atom-atom collisio...
We conduct semi-classical Monte-Carlo simulations of ultracold collisions utilizing freque...
We present results on coherent control of ultracold trap-loss collisions and molecule formation usin...
We present results on the effects of nanosecond-timescale frequency-chirped laser light on the forma...
We have studied the effects of chirped femtosecond laser pulses on the formation of ultracold molecu...
We have studied the effects of chirped femtosecond laser pulses on the formation of ultracold molecu...
Thesis (Ph. D.)--University of Rochester. Institute of Optics, 2006.This thesis details experimental...
Author Institution: JILA, National Institute of Standards and Technology and University of ColoradoR...
The establishment of robust laser-cooling techniques for the formation of ultracold atoms has provid...
Most of the experiments on photoassociation of cold atoms and formation of cold molecules are using ...
In the ultracold regime, where the interactions between atoms become quantum mechanical in nature, w...
Whenever scientific tools are significantly advanced; new discoveries soon follow. My thesis work re...
This paper reviews recent progress in experiments to control quantum dynamics in condensed phase and...
We report on ultracold atomic collision experiments utilizing frequency-chirped laser light. A rapid...
We report on the dynamics of ultracold collisions induced by near-resonant frequency-chirped light. ...
We investigate the application of the techniques of coherent control to ultracold atom-atom collisio...
We conduct semi-classical Monte-Carlo simulations of ultracold collisions utilizing freque...
We present results on coherent control of ultracold trap-loss collisions and molecule formation usin...
We present results on the effects of nanosecond-timescale frequency-chirped laser light on the forma...
We have studied the effects of chirped femtosecond laser pulses on the formation of ultracold molecu...
We have studied the effects of chirped femtosecond laser pulses on the formation of ultracold molecu...
Thesis (Ph. D.)--University of Rochester. Institute of Optics, 2006.This thesis details experimental...
Author Institution: JILA, National Institute of Standards and Technology and University of ColoradoR...
The establishment of robust laser-cooling techniques for the formation of ultracold atoms has provid...
Most of the experiments on photoassociation of cold atoms and formation of cold molecules are using ...
In the ultracold regime, where the interactions between atoms become quantum mechanical in nature, w...
Whenever scientific tools are significantly advanced; new discoveries soon follow. My thesis work re...
This paper reviews recent progress in experiments to control quantum dynamics in condensed phase and...