Imaging quantum vibrations on an ultrashort timescale: The deuterium molecular ion

J. McKenna; C. R. Calvert; W. A. Bryan; E. M.L. English; J. Wood; D. S. Murphy; I. C.E. Turcu; J. M. Smith; K. G. Ertel; O. Chekhlov; E. J. Divall; J. F. McCann; W. R. Newell; I. D. Williams

Journal ArticleOPEN ACCESS

Imaging quantum vibrations on an ultrashort timescale: The deuterium molecular ion

Journal of Physics: Conference Series (2007) 58(1) 375-378

DOI: 10.1088/1742-6596/58/1/085

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Abstract

The vibrational wavepacket revival of a basic quantum system is demonstrated experimentally. Using few-cycle laser pulse technology, pump and probe imaging of the vibrational motion of D+2 molecules is conducted, and together with a quantum-mechanical simulation of the excited wavepacket motion, the vibrational revival phenomenon has been characterised. The simulation shows good correlation with the temporal motion and structural features obtained from the data, relaying fundamental information on this diatomic system. © 2007 IOP Publishing Ltd.

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McKenna, J., Calvert, C. R., Bryan, W. A., English, E. M. L., Wood, J., Murphy, D. S., … Williams, I. D. (2007). Imaging quantum vibrations on an ultrashort timescale: The deuterium molecular ion. Journal of Physics: Conference Series, 58(1), 375–378. https://doi.org/10.1088/1742-6596/58/1/085

Imaging quantum vibrations on an ultrashort timescale: The deuterium molecular ion

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