Propagation of complex shaped ultrafast pulses in highlyoptically dense samples

Propagation of complex shaped ultrafast pulses in highlyoptically dense samples

We examine the propagation of shaped (amplitude- and frequency-modulated) ultrafast laser pulses through optically dense rubidium vapor. Pulse reshaping, stimulated emission dynamics, and residual electronic excitation all strongly depend on the laser pulse shape. For example, frequency swept pulses...

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Veröffentlicht in:The Journal of chemical physics 2008-04, Vol.128 (15), p.154312-154312-14
Hauptverfasser: Davis, J. C., Fetterman, M. R., Warren, W. S., Goswami, D.
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Zusammenfassung:We examine the propagation of shaped (amplitude- and frequency-modulated) ultrafast laser pulses through optically dense rubidium vapor. Pulse reshaping, stimulated emission dynamics, and residual electronic excitation all strongly depend on the laser pulse shape. For example, frequency swept pulses, which produce adiabatic passage in the optically thin limit (independent of the sign of the frequency sweep), behave unexpectedly in optically dense samples. Paraxial Maxwell optical Bloch equations can model our ultrafast pulse propagation results well and provide insight.
ISSN:0021-9606
1089-7690
DOI:10.1063/1.2894871