2013
DOI: 10.1063/1.4820881
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Reactive scattering dynamics of rotational wavepackets: A case study using the model H+H2 and F+H2 reactions with aligned and anti-aligned H2

Abstract: We propose a method to steer the outcome of reactive atom-diatom scattering, using rotational wavepackets excited by strong non-resonant laser pulses. Full close-coupled quantum mechanical scattering calculations of the D+H2 and F+H2 reactions are presented, where the H2 molecule exists as a coherent superposition of rotational states. The nuclear spin selective control over the molecular bond axis alignment afforded by the creation of rotational wavepackets is applied to reactive scattering systems, enabling … Show more

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Cited by 3 publications
(13 citation statements)
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“…[38] They also lend themselves to state-selective investigations of elementary processes in heterogeneous catalysis, such as scattering (sticking) of H atoms off (to) surfaces. Analogous revivals of vibrational [48] or rotational wavepackets [44,49] demonstrate that this is long enough for applications, for example, for state-selective sequel processes. [45,46] Relativistic extension of the present approach will allow effects of the fine structure of the excited states to be accounted for.…”
Section: Discussionmentioning
confidence: 97%
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“…[38] They also lend themselves to state-selective investigations of elementary processes in heterogeneous catalysis, such as scattering (sticking) of H atoms off (to) surfaces. Analogous revivals of vibrational [48] or rotational wavepackets [44,49] demonstrate that this is long enough for applications, for example, for state-selective sequel processes. [45,46] Relativistic extension of the present approach will allow effects of the fine structure of the excited states to be accounted for.…”
Section: Discussionmentioning
confidence: 97%
“…After laser hybridization, the orbitals can be monitored experimentally by techniques equivalent to those used for measuring the shapes of laser-sculpted atomic Rydberg wavepackets. [39,40] Moreover, H atoms and four isotopes [41] in sp n hybrid states may be used as state-selective reactants in elementary chemical reactions such as H + F 2 !HF + F. [36,37,[42][43][44] Hybrid-state selectivity may also be extended to femtosecond laser control of photoassociation reactions. For example, they may serve as targets for electron scattering to produce state-selective differential scattering cross sections.…”
Section: Discussionmentioning
confidence: 99%
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