Large-Energy-Quantum Intramolecular Modes

In sharp contrast to conventional spectroscopic methods based on direct mie-photon absorption, IRMPD spectroscopy relies on the sequential absorption of a large number of IR photons. This excitation mechanism leaves an imprint on the observed IR spectrum in the sense that vibrational bands are typically broadened, red-shifted and affected in relative intensity to some extent. While the intramolecular processes underlying these spectral modifications have been addressed and qualitatively modelled in a large number of studies [166-172], it is often hard to predict quantitatively an IRMPD spectrum because the required molecular parameters, in particular the anharmonic couplings between vibrational normal modes at high internal energies, are usually unknown and cannot be calculated accurately using current quantum-chemical methods, fri practice, most experimental IRMPD spectra are therefore analysed oti the basis of computed linear absorption spectra, which usually provide a reasonable approximation to the IRMPD spectrum. 

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