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  Energy transfer within the hydrogen bonding network of water following resonant terahertz excitation

Elgabarty, H., Kampfrath, T., Bonthuis, D. J., Balos, V., Kaliannan, N. K., Loche, P., et al. (2020). Energy transfer within the hydrogen bonding network of water following resonant terahertz excitation. Science Advances, 6(17): eaay7074. doi:10.1126/sciadv.aay7074.

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Item Permalink: https://hdl.handle.net/21.11116/0000-0005-F951-7 Version Permalink: https://hdl.handle.net/21.11116/0000-0006-6D42-6
Genre: Journal Article

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 Creators:
Elgabarty, Hossam1, Author
Kampfrath, Tobias2, 3, Author           
Bonthuis, Douwe Jan3, Author
Balos, Vasileios2, Author           
Kaliannan, Naveen Kumar1, Author
Loche, Philip3, Author
Netz, Roland R.3, Author
Wolf, Martin2, Author           
Kühne, Thomas D.1, Author
Sajadi, Mohsen2, Author           
Affiliations:
1Department of Chemistry, University of Paderborn, Paderborn, Germany, ou_persistent22              
2Physical Chemistry, Fritz Haber Institute, Max Planck Society, ou_634546              
3Department of Physics, Freie Universität Berlin, Berlin, Germany, ou_persistent22              

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Free keywords: Condensed Matter, Soft Condensed Matter, cond-mat.soft, Physics, Chemical Physics, physics.chem-ph
 Abstract: Energy dissipation in water is very fast and more efficient than in many other liquids. This behavior is commonly attributed to the intermolecular interactions associated with hydrogen bonding. Here, we investigate the dynamic energy flow in the hydrogen-bond network of liquid water by a pump-probe
experiment. We resonantly excite intermolecular degrees of freedom with
ultrashort single-cycle terahertz pulses and monitor its Raman response. By using ultrathin sample-cell windows, a background-free bipolar signal whose
tail relaxes mono-exponentially is obtained. The relaxation is attributed to the molecular translational motions, using complementary experiments, force-field and ab initio molecular dynamics simulations. They reveal an initial coupling of the terahertz electric field to the molecular rotational
degrees of freedom whose energy is rapidly transferred, within the excitation pulse duration, to the restricted-translational motion of neighboring molecules. This rapid energy transfer may be rationalized by the strong anharmonicity of the intermolecular interactions.

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Language(s): eng - English
 Dates: 2020-03-192020-03-242019-07-112020-01-292020-04-24
 Publication Status: Published online
 Pages: 8
 Publishing info: -
 Table of Contents: -
 Rev. Type: Peer
 Identifiers: arXiv: 2003.08651
URI: http://arxiv.org/abs/2003.08651
DOI: 10.1126/sciadv.aay7074
 Degree: -

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Title: Science Advances
  Other : Sci. Adv.
Source Genre: Journal
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Publ. Info: Washington : AAAS
Pages: 8 Volume / Issue: 6 (17) Sequence Number: eaay7074 Start / End Page: - Identifier: ISSN: 2375-2548
CoNE: https://pure.mpg.de/cone/journals/resource/2375-2548