Can Vibrational Spectroscopy Reveal Combinations of Normal Modes in Molecules?

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SUMMARY

Vibrational spectroscopy identifies peaks corresponding to normal modes of molecules, but it can also detect combinations of these modes and overtones. While the absorption bands for these combinations are significantly weaker than those for single normal modes, they can still be observed under certain conditions. Techniques such as applying high temperatures or utilizing nonlinear optical processes enhance the visibility of these combination and overtone bands. Understanding spectroscopic selection rules is crucial for interpreting these phenomena.

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  • Vibrational spectroscopy fundamentals
  • Normal modes of vibration in molecules
  • Harmonic approximation in spectroscopy
  • Spectroscopic selection rules
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  • Research techniques for observing overtone and combination bands in vibrational spectroscopy
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  • Explore the effects of temperature on vibrational spectra
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Talita
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In vibrational spectroscopy we read peaks related to normal modes of a molecule.

But I just can't understand: we can have a combination of those normal modes of vibration, right? So how can I read a spectrum of a molecule if this molecule can absorb a frenquency that might excite a combination of normal modes and not a single normal mode?

Sorry if I made any english mistake.
Thank you (:
 
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Molecules can absorb frequencies that excite combinations of normal modes, or overtones of normal modes. These absorption bands tend to be much weaker than excitation of a single normal mode. In fact, in the harmonic approximation, the probability of overtone excitation by one photon is exactly zero (google "spectroscopic selection rules" for a good overview of this). Of course, it's only an approximation, so that overtone/combination band excitation is possible, but quite weak. However, there exist techniques where these combinations and overtones can be observed more easily (e.g., by using high temperatures or nonlinear optical processes).
 
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