Temperature Dependence of X-ray-Induced Auger Processes in Liquid Water | Zendy

ClaraMagdalena Saak | Zendy; I. Unger | Zendy; Geethanjali Gopakumar | Zendy; Carl Caleman | Zendy; Olle Björneholm | Zendy

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Temperature Dependence of X-ray-Induced Auger Processes in Liquid Water

Author(s) -

ClaraMagdalena Saak,

I. Unger,

Geethanjali Gopakumar,

Carl Caleman,

Olle Björneholm

Publication year - 2020

Publication title -

the journal of physical chemistry letters

Language(s) - English

Resource type - Journals

ISSN - 1948-7185

DOI - 10.1021/acs.jpclett.0c00158

Subject(s) - auger , intermolecular force , femtosecond , liquid water , proton , spectroscopy , hydrogen bond , radiation , chemical physics , auger electron spectroscopy , chemistry , atomic physics , hydrogen , materials science , analytical chemistry (journal) , molecule , thermodynamics , organic chemistry , physics , nuclear physics , optics , laser , quantum mechanics

Auger spectroscopy has previously been used to study changes in the hydrogen bond network in liquid water, but to the best of our knowledge it has not been used to track such changes as a function of temperature. We show Auger spectroscopy to reflect the weakening of the hydrogen bond network upon heating. This shows that the radiation response of water, i.e., the relative propensity of the different processes occurring after radiation exposure, including femtosecond proton dynamics, depends on the temperature of the system. This proof-of-principle study further demonstrates the suitability of the technique to help elucidate information on the intermolecular structure of liquids such as water, opening the door to further temperature-dependent studies.

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