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Quantum scattering study of collisional energy transfer in He+NO
2
: The importance of the vibronic mixing
Carlo Petrongolo
*
,
George C. Schatz
*
Corresponding author for this work
Chemistry
Research output
:
Contribution to journal
›
Article
›
peer-review
8
Scopus citations
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Dive into the research topics of 'Quantum scattering study of collisional energy transfer in He+NO
2
: The importance of the vibronic mixing'. Together they form a unique fingerprint.
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Keyphrases
Atom-atom Potentials
33%
Basis Expansion
33%
Collisional Energy Transfer
100%
Conical Intersection
33%
Coupled Channels
33%
Electronic States
33%
Energy Gap
33%
Energy Transfer
33%
Energy Transfer Efficiency
33%
Excited Electronic States
33%
Infinite Order
33%
Intermolecular Potential
66%
Potential Surface
33%
Quantum Scattering
100%
Scattering Techniques
33%
Total States
33%
Vibronic
100%
Zero-point Energy
33%
Zeroth-order
33%
Chemistry
Band Gap
16%
Collisional Energy Transfer
100%
Electronic State
16%
Energy Transfer
33%
Excited Electronic State
16%
Intermolecular Potential
33%
Nitrogen Dioxide
100%
Scattering Methods
16%
Surface Potential
16%
Zero Point Energy
16%