2003
DOI: 10.1021/jp0300142
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Reactions of Charged Species in Supercritical Xenon as Studied by Pulse Radiolysis

Abstract: The results of an initial study of the pulse radiolysis of supercritical xenon are reported. In pure xenon, transients are formed that absorb broadly throughout the visible. These transients are assigned to excimer species, Xe2*, on the basis of lifetime and kinetic data. The formation of excimers by electron−ion recombination was time-resolved by pulse−probe measurements. The excimers can be quenched by adding small amounts of ethane, which then facilitates detection of other transients by absorption spectros… Show more

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Cited by 13 publications
(22 citation statements)
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“…18 For these experiments samples are irradiated using Bremsstrahlung x rays from the electron beam stopping in the Faraday cup of the transient absorption cell holder. The experimental apparatus has been described previously.…”
Section: G Experimental Systemsmentioning
confidence: 99%
“…18 For these experiments samples are irradiated using Bremsstrahlung x rays from the electron beam stopping in the Faraday cup of the transient absorption cell holder. The experimental apparatus has been described previously.…”
Section: G Experimental Systemsmentioning
confidence: 99%
“…Recent picosecond pulse radiolysis experiments that take advantage of the new time window include a reevaluation of the initial radiolytic yield of the hydrated electron in water, 30 ultrafast studies of quantum confinement in semiconducting scintillators, 32 fast charge transfer mechanisms, 33 radiolytic reactions 31,34,35 and radiolysis of supercritical liquids. 36,37 For photocathode linacs, the experimental time resolution is highly dependent upon the degree of synchronization between the phase of the RF field and the laser pulse that generates the photoelectrons at the photocathode as well as the synchronization between the resulting electron pulse and the probe laser pulse. For example, to generate an 800 fs electron pulse, the time jitter between the RF and the laser must be reduced to better than 500 fs.…”
Section: Introductionmentioning
confidence: 99%
“…Included for comparison in Figure 2 is the rate constant for attachment to C 6 F 6 at 20°C. 9 Whereas the rate increases rapidly for C 6 F 6 near 62 bar, the rate of attachment to pyrazine at 20°C is decreasing at this pressure. The differences observed for k a in supercritical ethane and xenon lead to quite different behavior of the activation volumes, ∆V a * .…”
Section: Resultsmentioning
confidence: 96%
“…The ethane prevents reactions of hot electrons from occurring and has no effect on the mobility. 9 Although ethane is known to quench excimers, 9 it is assumed that it has no effect on the electron reactions studied here. At this point, the rate of electron attachment to residual impurities, k imp [impurity], was determined as a function of Xe pressure.…”
Section: Experimental Methodsmentioning
confidence: 99%