Mapping the Evolution of Optically-Generated Rotational Wavepackets in a Room Temperature Ensemble of D$_2$

C. R. Calvert; E. M. L. English; I. C. E. Turcu; I. D. Williams; J. L. Collier; J. McKenna; J. Wood; R. Torres; W. A. Bryan; W. R. Newell

arxiv: 0706.4077 · v1 · submitted 2007-06-27 · 🪐 quant-ph · physics.atom-ph· physics.chem-ph

Mapping the Evolution of Optically-Generated Rotational Wavepackets in a Room Temperature Ensemble of D₂

W. A. Bryan , E. M. L. English , J. McKenna , J. Wood , C. R. Calvert , R. Torres , I. C. E. Turcu , J. L. Collier

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I. D. Williams W. R. Newell

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classification 🪐 quant-ph physics.atom-phphysics.chem-ph

keywords beenevolutionrotationalthetawavepacketalignmentangleaxis

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A coherent superposition of rotational states in D$_2$ has been excited by nonresonant ultrafast (12 femtosecond) intense (2 $\times$ 10$^{14}$ Wcm$^{-2}$) 800 nm laser pulses leading to impulsive dynamic alignment. Field-free evolution of this rotational wavepacket has been mapped to high temporal resolution by a time-delayed pulse, initiating rapid double ionization, which is highly sensitive to the angle of orientation of the molecular axis with respect to the polarization direction, $\theta$. The detailed fractional revivals of the neutral D$_2$ wavepacket as a function of $\theta$ and evolution time have been observed and modelled theoretically.

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Mapping the Evolution of Optically-Generated Rotational Wavepackets in a Room Temperature Ensemble of D₂

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