posted on 2023-04-27, 18:14authored byGuillaume Le Breton, Oriane Bonhomme, Emmanuel Benichou, Claire Loison
Second harmonic scattering (SHS) is a method of choice
to investigate
the molecular structure of liquids. While a clear interpretation of
SHS intensity exists for diluted solutions of dyes, the scattering
due to solvents remains difficult to interpret quantitatively. Here,
we report a quantum mechanics/molecular mechanics (QM/MM) approach
to model the polarization-resolved SHS intensity of liquid water,
quantifying different contributions to the signal. We point out that
the molecular hyperpolarizability fluctuations and correlations cannot
be neglected. The intermolecular orientational and hyperpolarizability
correlations up to the third solvation layer strongly increase the
scattering intensities and modulate the polarization-resolved oscillation
that is predicted here by QM/MM without fitting parameters. Our approach
can be generalized to other pure liquids to provide a quantitative
interpretation of SHS intensities in terms of short-range molecular
ordering.