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Energetic and thermodynamic size effects in molecular clusters
M. Bixon
*
,
Joshua Jortner
*
Corresponding author for this work
School of Chemistry
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peer-review
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Dive into the research topics of 'Energetic and thermodynamic size effects in molecular clusters'. Together they form a unique fingerprint.
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Keyphrases
Size Effect
100%
Energy Spectrum
100%
Thermodynamics
100%
Molecular Clusters
100%
Inherent Structure
50%
Energy Gap
50%
Isomerization
25%
Thermodynamic Properties
25%
Large Energy
25%
Excited States
25%
Temperature Effect
12%
Finite Systems
12%
Local Minima
12%
Analytical Model
12%
Gapless
12%
Analytical Results
12%
Internal Energy
12%
Energy Levels
12%
(R)-1
12%
Vibrational Density of States
12%
Unified Description
12%
Nuclear Potential
12%
Canonical Ensemble
12%
Microcanonical Ensemble
12%
Energy Fluctuation
12%
Analytical Relation
12%
Alkali Halides
12%
Transition Range
12%
Rare Gas Clusters
12%
Halide Cluster
12%
Molecular Isomerization
12%
Caloric Curve
12%
Potential Energy Hypersurfaces
12%
Degenerate Excited States
12%
Chemistry
Energetics
100%
Band Gap
100%
Molecular Cluster
100%
Size Effect
100%
Excited State
75%
Isomerization
75%
Ground State
25%
Statistical Ensemble
25%
Phonon Density of State
25%
Noble Gas Atom
25%
Halide
25%
Internal Energy
25%
Nuclear Potential
25%
Canonical Ensemble
25%
Potential Energy Hypersurface
25%
Microcanonical Ensemble
25%
Engineering
Energetics
100%
Energy Spectra
100%
Size Effect
100%
Energy Gap
50%
Excited State
37%
Energy Engineering
25%
Analytical Model
12%
Broadening
12%
Temperature Dependence
12%
Ground State
12%
Simple Model
12%
Internal Energy
12%
Potential Energy
12%
Analytical Result
12%
Local Minimum
12%
Interrelationship
12%
Physics
Energetics
100%
Energy Spectra
100%
Molecular Cluster
100%
Excitation
37%
Isomerization
37%
Internal Energy
12%
Rare Gas
12%
Ground State
12%
Temperature Dependence
12%
Potential Energy
12%
Nuclear Potential
12%
Canonical Ensemble
12%
Phonon Density of State
12%
Chemical Engineering
Alkali Halides
100%