Reduced Near-Resonant Vibrational Coupling at the Surfaces of Liquid Water and Ice

Authors :: Mischa Bonn
Wilbert J. Smit
Huib J. Bakker
Ellen H. G. Backus
Jan Versluis
Source :: The Journal of Physical Chemistry Letters
Publication Year :: 2018
Publisher :: American Chemical Society (ACS), 2018.
Abstract: We study the resonant interaction of the OH stretch vibrations of water molecules at the surfaces of liquid water and ice using heterodyne-detected sum-frequency generation (HD-SFG) spectroscopy. By studying different isotopic mixtures of H2O and D2O, we vary the strength of the interaction, and we monitor the resulting effect on the HD-SFG spectrum of the OH stretch vibrations. We observe that the near-resonant coupling effects are weaker at the surface than in the bulk, for both water and ice, indicating that for both phases of water the OH vibrations are less strongly delocalized at the surface than in the bulk.

Subjects :: Coupling
Letter
Materials science
010304 chemical physics
Liquid water
010402 general chemistry
01 natural sciences
0104 chemical sciences
Vibration
Delocalized electron
Chemical physics
0103 physical sciences
Molecule
General Materials Science
Physics::Chemical Physics
Physical and Theoretical Chemistry
Rotational–vibrational coupling
Spectroscopy
Physics::Atmospheric and Oceanic Physics

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