2011
DOI: 10.1016/j.cplett.2011.04.059
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Low-linear energy transfer radiolysis of liquid water at elevated temperatures up to 350°C: Monte-Carlo simulations

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Cited by 38 publications
(87 citation statements)
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“…As predicted earlier, including the drop in k 1 above 150°C in deterministic diffusion-kinetic modeling calculations [30,31,34] and in Monte Carlo simulations [9,32,33] resulted in a sharp downward discontinuity in g(H 2 ), which is not observed experimentally. Figure 1 illustrates the simulation results of g(H 2 ) as a function of temperature as obtained recently by our group at the Université de Sherbrooke [9]. Indeed, above ~150°C the calculations predict a decrease in g(H 2 ) instead of the observed increase.…”
Section: Theorymentioning
confidence: 52%
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“…As predicted earlier, including the drop in k 1 above 150°C in deterministic diffusion-kinetic modeling calculations [30,31,34] and in Monte Carlo simulations [9,32,33] resulted in a sharp downward discontinuity in g(H 2 ), which is not observed experimentally. Figure 1 illustrates the simulation results of g(H 2 ) as a function of temperature as obtained recently by our group at the Université de Sherbrooke [9]. Indeed, above ~150°C the calculations predict a decrease in g(H 2 ) instead of the observed increase.…”
Section: Theorymentioning
confidence: 52%
“…In fact, to compensate for the decrease of k 1 , a sharp decrease of r th above ~100-150°C had to be included in the simulations. This decrease in r th was supposed to be the signature of an increase in the scattering cross sections of subexcitation electrons probably reflecting a rapid deterioration in the degree of structural order of water (due to increased breaking of hydrogen bonds) at these temperatures (these subexcitation electrons are known to be very sensitive to the structural order of the surrounding medium, owing to their non-negligible delocalized character) [9,32]. Despite the lack of clear experimental evidence for such a change in the topology of intermolecular hydrogen bonding in water above 150°C, very good agreement was found under these conditions between simulated and experimental g(H 2 ), and the sharp downward discontinuity predicted at 150°C (Fig.…”
Section: Resultsmentioning
confidence: 99%
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