Two-dimensional femtosecond vibrational spectroscopy of liquids
- 15 December 1993
- journal article
- Published by AIP Publishing in The Journal of Chemical Physics
- Vol. 99 (12) , 9496-9511
- https://doi.org/10.1063/1.465484
Abstract
The nonlinear optical response of liquids subjected to a series of N femtosecond laser pulses is calculated using a multimode harmonic model for nuclear motions, with nonlinear coupling to the radiation field through the coordinate dependence of the electronic polarizability. Using electronically off‐resonant optical fields, this multidimensional spectroscopy is shown to provide direct information regarding the homogeneous or the inhomogeneous nature of the spectral density obtained from optical birefringence measurements. Complementary information can be obtained using infrared pulses where the multiple time correlation functions of the nuclear dipole moment (rather than the electronic polarizability) are being probed.Keywords
This publication has 41 references indexed in Scilit:
- Real-time path-integral approach to quantum coherence and dephasing in nonadiabatic transitions and nonlinear optical responsePhysical Review E, 1993
- Simulation of Nonlinear Electronic Spectroscopy in the Condensed PhaseAdvances in Chemical Physics, 1993
- Heterodyne-detected time-domain measurement of I2 predissociation and vibrational dynamics in solutionThe Journal of Chemical Physics, 1992
- Femtosecond Optical Spectroscopy: A Direct Look at Elementary Chemical EventsAnnual Review of Physical Chemistry, 1990
- Femtosecond Pulse Sequences Used for Optical Manipulation of Molecular MotionScience, 1990
- Statistical mechanical calculation of inhomogeneously broadened absorption line shapes in solutionThe Journal of Physical Chemistry, 1990
- The Internal Field Problem in Depolarized Light ScatteringAdvances in Chemical Physics, 1984
- Collisional broadening of spectral line shapes in two-photon and multiphoton processesPhysics Reports, 1982
- Dynamics of Molecules in Condensed Phases: Picosecond Holographic Grating ExperimentsAnnual Review of Physical Chemistry, 1982
- New results on ultrafast coherent excitation of molecular vibrations in liquidsApplied Physics B Laser and Optics, 1981