Difference between revisions of "Quantum Control"
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== Two photon absorption in strong field == | == Two photon absorption in strong field == | ||
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[[Image:Setup_dazzler.jpg|center|400px]] | [[Image:Setup_dazzler.jpg|center|400px]] | ||
| − | Fig.1: schematic diagram of the experimental setup | + | <center>Fig.1: schematic diagram of the experimental setup</center> |
[[Image:Intensity_total_v4.jpg|center|400px]] | [[Image:Intensity_total_v4.jpg|center|400px]] | ||
| − | Fig.2: fluoresence as a function of chirp rates and transform-limited intensity of pulses | + | <center>Fig.2: fluoresence as a function of chirp rates and transform-limited intensity of pulses</center> |
[[Image:Detuning_total_v6.jpg|center|400px]] | [[Image:Detuning_total_v6.jpg|center|400px]] | ||
| − | Fig.3: fluorescence as a function of detuning and chirp rates | + | <center>Fig.3: fluorescence as a function of detuning and chirp rates</center> |
Revision as of 04:08, 28 August 2009
Two photon absorption in strong field
A shaped ultrafast pulse makes it possible to stir a quantum system and thus control a quantum process via light-matter interaction. Two photon absorption processes between two states is one of famous systema of coherent control. We study coherent control schemes for a two photon absorption process in a strong field.
