Abstract
The influence of the pulse duration on time-resolved sum-frequency generation (SFG) is studied on the basis of the density matrix formulation for non-linear optical processes. A general expression is derived for a sum-frequency polarization whose decay as a function of the time delay between the pump (infrared) and probe (visible) pulses provides a direct measure of the vibrational dephasing time of adsorbates. It is clearly demonstrated how the transient SFG intensity is influenced by the pulse duration and under what conditions the temporal resolution is estimated from the rising edge of the SFG signal, and its decay is described by a single exponential with a time constant of the dephasing. The coherent mixing effect between sequent pulses in the transient SFG signal near zero time delay is also discussed.
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