Publications by authors named "Roman Voronkov"
The modern means of controlled irradiation by femtosecond lasers or swift heavy ion beams can transiently produce such energy densities in samples that reach collective electronic excitation levels of the warm dense matter state, where the potential energy of interaction of the particles is comparable to their kinetic energies (temperatures of a few eV). Such massive electronic excitation severely alters the interatomic potentials, producing unusual nonequilibrium states of matter and different chemistry. We employ density functional theory and tight binding molecular dynamics formalisms to study the response of bulk water to ultrafast excitation of its electrons.
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- A Fricke dosimeter was employed to measure the absorption of doses from soft X-rays, focusing on the oxidation of Fe ions in water.
- The study also used terephthalic acid to detect OH radicals in a neutral solution.
- Results, supported by Monte Carlo simulations, showed consistent radiation chemical yields for Fe ions and OH radicals when exposed to these X-ray sources, confirming the reliability of the dosimetry approaches.