2020
DOI: 10.1039/d0cp04228e
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Probing the location of the unpaired electron in spin–orbit changing collisions of NO with Ar

Abstract: Understanding the molecular forces that drive a reaction or scattering process lies at the heart of molecular dynamics. Here, we present a combined experimental and theoretical study of the spin-orbit...

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Cited by 11 publications
(26 citation statements)
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“…The spin-orbit changing collisions exhibit an overall preference for positive ISAs, that is, a preference for N-side/N-end collisions. We have observed the same trend in our previous work on the NO + Ar system, in which we attributed the N-side/N-end preference to the location of the unpaired electron closer to the N atom of the molecule [33]. Since the incoming rare gas atom can more efficiently interact with the unpaired electron at shorter distances, a change in spin-orbit quantum number is more likely to occur for collisions towards the N-side/N-end.…”
Section: Integral Steric Asymmetriessupporting
confidence: 85%
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“…The spin-orbit changing collisions exhibit an overall preference for positive ISAs, that is, a preference for N-side/N-end collisions. We have observed the same trend in our previous work on the NO + Ar system, in which we attributed the N-side/N-end preference to the location of the unpaired electron closer to the N atom of the molecule [33]. Since the incoming rare gas atom can more efficiently interact with the unpaired electron at shorter distances, a change in spin-orbit quantum number is more likely to occur for collisions towards the N-side/N-end.…”
Section: Integral Steric Asymmetriessupporting
confidence: 85%
“…As observed previously for NO + Ar [27,[30][31][32][33], the orientational preferences of the DCSs alternate between even and odd j transitions. This is readily seen in the difference images in Figures 2-5, where red indicates a positive and blue a negative intensity.…”
Section: Velocity-map Ion Images and Dcsssupporting
confidence: 82%
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