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Quantum optimal control pathways of ozone isomerization dynamics subject to competing dissociation: A two-state one-dimensional model
Yuzuru Kurosaki
, Tak San Ho
,
Herschel Rabitz
Chemistry
Princeton Language and Intelligence (PLI)
Princeton Materials Institute
Research output
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Contribution to journal
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Article
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peer-review
7
Scopus citations
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Dive into the research topics of 'Quantum optimal control pathways of ozone isomerization dynamics subject to competing dissociation: A two-state one-dimensional model'. Together they form a unique fingerprint.
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Keyphrases
Isomerization Dynamics
100%
Dissociation Channel
50%
Final Yield
50%
Practical Control
50%
Cyclic Isomer
50%
Molecular Polarizability
50%
Single State
50%
Molecular Hyperpolarizability
50%
Intrinsic Reaction Coordinate
50%
Field Effect
50%
Field Intensity
50%
Optimal Control Simulation
50%
Material Science
Ab Initio Method
100%
Hyperpolarizability
100%
Physics
Isomerization
100%
Method Ab Initio
33%
Field Effect
33%
Control Simulation
33%
Chemistry
Calculation Method
33%
Hyperpolarizability
33%
Engineering
Final Yield
33%
Molecular Polarizabilities
33%