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Application of optimal control theory for selective vibrational excitation in molecules modeled as harmonic physical systems
J. G.B. Beumee,
H. Rabitz
Chemistry
Princeton Institute for the Science and Technology of Materials
Research output
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Contribution to journal
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Article
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peer-review
21
Scopus citations
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Dive into the research topics of 'Application of optimal control theory for selective vibrational excitation in molecules modeled as harmonic physical systems'. Together they form a unique fingerprint.
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Mathematics
Optimal Control Theory
91%
Excitation
78%
Molecules
74%
Harmonic
64%
Costs
55%
Chain
43%
Energy Distribution
28%
Infinity
26%
Hamiltonian Matrix
25%
Eigenvalue
23%
Design
23%
Control Strategy
21%
Electromagnetic Fields
21%
Balancing
21%
Weighting
19%
Lagrange
18%
Controller
18%
Form
15%
Limiting
15%
Strategy
13%
Approximation
9%
Physics & Astronomy
control theory
100%
optimal control
94%
costs
57%
harmonics
52%
molecules
40%
infinity
38%
excitation
37%
eigenvalues
32%
fluence
31%
controllers
19%
functionals
17%
energy distribution
16%
electromagnetic fields
15%
approximation
9%