Characterization of transient molecular vibration excited with shaped femtosecond pulses

Characterization of transient molecular vibration excited with shaped femtosecond pulses. Konorov, S. O., Xu, X. G., Hepburn, J. W., & Milner, V. The Journal of chemical physics, 130(23):234505, American Institute of Physics, 2009.
abstract bibtex

We study vibrational dynamics of molecules interacting with spectrally shaped broadband laser pulses. After performing a single measurement based on cross-correlation frequency resolved optical gating of molecular vibration, complete evolution of the complex-valued quantum coherence between the vibrational states is reconstructed with variable time and frequency resolution. The ability to change the resolution in the analysis of the transient molecular dynamics without repeating the experiment or changing experimental parameters is useful in designing and understanding various schemes of controlling quantum states of molecules.

@Article{Konorov2009,
  author    = {Konorov, Stanislav O. and Xu, Xiaoji G. and Hepburn, John W. and Milner, Valery},
  journal   = {The Journal of chemical physics},
  title     = {Characterization of transient molecular vibration excited with shaped femtosecond pulses},
  year      = {2009},
  number    = {23},
  pages     = {234505},
  volume    = {130},
  abstract  = {We study vibrational dynamics of molecules interacting with spectrally shaped broadband laser pulses. After performing a single measurement based on cross-correlation frequency resolved optical gating of molecular vibration, complete evolution of the complex-valued quantum coherence between the vibrational states is reconstructed with variable time and frequency resolution. The ability to change the resolution in the analysis of the transient molecular dynamics without repeating the experiment or changing experimental parameters is useful in designing and understanding various schemes of controlling quantum states of molecules.},
  publisher = {American Institute of Physics},
}

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