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Differential Cross Sections for Pair-Correlated Rotational Energy Transfer in NO(A
2
Σ
+
) + N
2
, CO, and O
2
: Signatures of Quenching Dynamics
Thomas F. M. Luxford
, Thomas R. Sharples
,
Martin Fournier
, Clément Soulié
,
Martin J. Paterson
,
Kenneth G. McKendrick
,
Matthew L. Costen
Institute of Chemical Sciences
School of Engineering & Physical Sciences
Research output
:
Contribution to journal
›
Article
›
peer-review
4
Citations (Scopus)
41
Downloads (Pure)
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Dive into the research topics of 'Differential Cross Sections for Pair-Correlated Rotational Energy Transfer in NO(A
2
Σ
+
) + N
2
, CO, and O
2
: Signatures of Quenching Dynamics'. Together they form a unique fingerprint.
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INIS
dynamics
100%
oxygen
100%
energy transfer
100%
quenching
100%
differential cross sections
100%
excitation
71%
collisions
71%
surfaces
28%
energy
28%
potential energy
28%
scattering
28%
van der waals forces
28%
impact parameter
28%
trajectories
14%
range
14%
removal
14%
velocity
14%
maps
14%
inelastic scattering
14%
increasing
14%
ions
14%
rotational states
14%
apparatus
14%
molecular beams
14%
Chemistry
Rotational Excitation
100%
Rotational Energy Transfer
100%
Potential Energy Surface
50%
Van Der Waals Potential
25%
Molecular Beams
25%
Internal Energy
25%
Inelastic Scattering
25%
electronics
25%
Rotational State
25%