1992
DOI: 10.1063/1.463167
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Pulse radiolysis studies of ion–electron recombination in helium. Pressure and temperature effects

Abstract: Using pulse radiolysis techniques, rates of recombination of electrons with Het ions in the presence of helium over a wide pressure range (40-900 Torr) and at temperatures of 200, 235, 275, and 295 K were measured. Two-and three-body recombination processes were resolved, and a temperature dependence for the three-body recombination rate constant of T(;;;.2.9± 1.2) observed. This result agrees well with theoretical predictions of a temperature expo~ent of -2.5 by Bates and Khare and Pitaevskii, and remarkably … Show more

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Cited by 21 publications
(5 citation statements)
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“…However, the recombination rate of electrons becomes highly sensitive to the electron temperature only for < T 0.2 eV e and we can then compare our apparent recombination coefficient with literature values. Sonsbeeck et al [47] and Hofland et al [48] investigated electron recombination in helium for a pressure range compa rable with our work. Pressure is a factor of importance, as with increasing pressure threebody recombination becomes a sig nificant recombination mechanism.…”
Section: Switch-off and Afterglow 140 Ns And Latersupporting
confidence: 73%
“…However, the recombination rate of electrons becomes highly sensitive to the electron temperature only for < T 0.2 eV e and we can then compare our apparent recombination coefficient with literature values. Sonsbeeck et al [47] and Hofland et al [48] investigated electron recombination in helium for a pressure range compa rable with our work. Pressure is a factor of importance, as with increasing pressure threebody recombination becomes a sig nificant recombination mechanism.…”
Section: Switch-off and Afterglow 140 Ns And Latersupporting
confidence: 73%
“…Here n 0 is the initial density defined by (Q/α) 1/2 , t represents an evolution time within the ion guide and α is the recombination rate coefficient of helium [30]. The fit to the data in Fig.…”
Section: Spig Transmission Efficiencymentioning
confidence: 99%
“…For neutral-assisted recombination of He + 2 ions (process 24 in table 1), we will show that the rate constant for this process is probably weak compared with ambipolar diffusion, indicating that the temperature dependence given by [9] is probably not valid at high temperature. In a recent work [33], Sonsbeek et al show over a limited range of gas temperatures (from 200 to 295 K) that the temperature dependence of the neutral-stabilized recombination of He + 2 is given by 1.60 × 10 −27 (T g /300) −2.9±1.2 . The rate constant decreases with the temperature in agreement with some theoretical predictions but contrary to the dependence given in [9,10].…”
Section: Recombinationmentioning
confidence: 99%