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The dynamics of high autoionizing Rydberg states of Ar
M. Bixon
*
,
Joshua Jortner
*
Corresponding author for this work
School of Chemistry
Research output
:
Contribution to journal
›
Article
›
peer-review
42
Scopus citations
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Keyphrases
Doorway States
100%
Autoionizing Rydberg States
100%
Rydberg
83%
Electron Kinetic Energy
50%
Autoionization
33%
Decay Width
33%
State Mixing
33%
Order of Magnitude
16%
Angular Momentum
16%
Energy Spectrum
16%
Time-resolved
16%
Experimental Values
16%
Scaling Laws
16%
Energy Lifetime
16%
Effective Hamiltonian
16%
Principal Quantum number
16%
Long Lifetime
16%
Multi-channel
16%
Spectral Linewidth
16%
Two-time Scale
16%
Quantum number
16%
Effective Coupling
16%
Ion Collisions
16%
Experimental Information
16%
Homogeneous Electric Field
16%
Tentative Identification
16%
Quantum Defects
16%
Strong Mixing
16%
Reduced Electric Field
16%
Coupling Range
16%
Engineering
Theoretical Study
100%
Electric Field
100%
Azimuthal
50%
Experimental Value
50%
Dilution
50%
Angular Momentum
50%
Scaling Law
50%
Principal Quantum Number
50%
Quantum Number
50%
Multichannel
50%
Spectral Linewidth
50%
Stark Manifold
50%
Chemistry
Rydberg State
100%
Zero Electron Kinetic Energy
100%
Electric Field
66%
Autoionization
66%
Quantum Number
66%
Spectroscopy
33%
Dilution
33%
Linewidth
33%
Quantum Defect
33%
Electronic Angular Momentum
33%
electronics
33%
Scaling Law
33%
Mathematics
Manifold
100%
Quantum Number
100%
Electric Field
100%
Timescale
50%
Angular Momentum
50%
Strong Mixing
50%
Scaling Law
50%
Physics
Kinetic Energy
100%
Rydberg State
100%
Autoionization
66%
Quantum Number
66%
Electric Field
66%
Angular Momentum
33%
Linewidth
33%
Material Science
Zero Electron Kinetic Energy
100%
Dilution
33%
Linewidth
33%