2010
DOI: 10.1103/physrevlett.105.103202
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Hot Water Molecules from Dissociative Recombination ofD3O+with Cold Electrons

Abstract: Individual product channels in the dissociative recombination of deuterated hydronium ions and cold electrons are studied in an ion storage ring by velocity imaging using spatial and mass-sensitive detection of the neutral reaction fragments. Initial and final molecular excitation are analyzed, finding the outgoing water molecules to carry internal excitation of more than 3 eV in 90% of the recombination events. Initial rotation is found to be substantial and in three-body breakup strongly asymmetric energy re… Show more

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Cited by 26 publications
(26 citation statements)
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“…This ∼3 eV corresponds well to the E 0 of the three-body channel, to within the energy resolution of our KER distribution analysis for the two-body channels. Similar KER distributions, extending from the two-body E 0 value and going down to the three-body fragmentation E 0 value, have been observed in DR of + H 3 , D 2 H + , D 3 O + , and DCND + (Strasser et al 2002;Buhr et al 2010aBuhr et al , 2010bMendes et al 2012). The maximum energy released here by either two-body DR channel at matched beams' velocities is 7.9 eV.…”
Section: Ker Distributionssupporting
confidence: 74%
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“…This ∼3 eV corresponds well to the E 0 of the three-body channel, to within the energy resolution of our KER distribution analysis for the two-body channels. Similar KER distributions, extending from the two-body E 0 value and going down to the three-body fragmentation E 0 value, have been observed in DR of + H 3 , D 2 H + , D 3 O + , and DCND + (Strasser et al 2002;Buhr et al 2010aBuhr et al , 2010bMendes et al 2012). The maximum energy released here by either two-body DR channel at matched beams' velocities is 7.9 eV.…”
Section: Ker Distributionssupporting
confidence: 74%
“…However, the pulse heights provide information on the fragment masses. The detector is described in detail elsewhere (Buhr et al 2010b) and has been used successfully for DR studies of D 3 O + , D 2 H + , DCND + , and NH + (Buhr et al 2010a(Buhr et al , 2010bMendes et al 2012;Yang et al 2014). Here we describe only those aspects of the detection method relevant for the present study.…”
Section: Overviewmentioning
confidence: 99%
“…Therefore, the discrepancy between the temperature dependencies cannot be assigned to different degrees of vibrational excitations in the ion populations. N 2 H + has a rather high dipole moment of ∼3.4 D (Havenith et al 1990) and we believe, therefore, that the storage time was sufficient to give the ion population a rotational temperature of about ∼300 K, though we cannot be absolutely certain about this temperature (e.g., Buhr et al 2010). Assuming that the rate coefficient for the DR of N 2 H + has power-law dependencies on both the electron temperature and the rotational temperature of the ions implies a rotational temperature dependence of approximately T 0.84 rot for T rot > 200 K in order to reach consistency between the present results and those reported by Poterya et al (2005) and Lawson et al (2011).…”
Section: Discussionmentioning
confidence: 89%
“…A number of experiments have been undertaken on this system 204,205,206,207 , and the cur- 175 for the reaction with H + 3 at room temperature, 300 K, is 5 × 10 −9 cm 3 s −1 , and the estimated value using the trajectory scaling model is also this value. At a temperature of 10 K, the predicted rate coefficient would be approximately a factor of 4.6 greater.…”
Section: Low Temperature Gas-phase Formation Of H 2 Omentioning
confidence: 99%