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Improved determination of the dissociation energy of H2, HD and D2
Joël Hussels
LaserLaB - Physics of Light
Quantum Metrology & Laser Applications
Research output
:
PhD Thesis
›
PhD-Thesis - Research and graduation internal
284
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Dive into the research topics of 'Improved determination of the dissociation energy of H2, HD and D2'. Together they form a unique fingerprint.
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Engineering
Doppler Effect
100%
Frequency Chirp
100%
Continuous Wave
66%
Laser Light
66%
Amplifier
66%
Multichannel
33%
Resonance Frequency
33%
Optical Frequency
33%
Hydrogen Molecule
33%
Main Source
33%
Systematic Effect
33%
Defects
33%
Laser Intensity
33%
Experimental Value
33%
Theoretical Value
33%
Harmonic Generation
33%
Ground State
33%
Detection Process
33%
Chemistry
Dissociation Energy
100%
Ionization Potential
100%
Doppler Effect
75%
Two-Photon Transition
50%
Molecular Beams
50%
Rydberg State
50%
Hyperfine Structure
50%
Stark Effect
50%
Ab Initio Calculation
25%
Standard Model
25%
Molecular Ion
25%
Second-Harmonic Generation
25%
Ground State
25%
Hyperfine Splitting
25%
Multi-Channel Quantum Defect Theory
25%
Quantum Electrodynamics
25%
Hydrogen
25%
Physics
Doppler Effect
100%
Molecular Beams
66%
Hyperfine Structure
66%
Rydberg State
66%
Stark Effect
66%
Continuous Radiation
66%
Second Harmonic Generation
33%
Quantum Electrodynamics
33%
Ground State
33%
Rydberg Series
33%
Electromagnetic
33%
Molecular Ion
33%
Biochemistry, Genetics and Molecular Biology
Pulse Rate
100%
Ionization Energy
80%
Doppler Effect
60%
Optics
20%
Electromagnetism
20%
Multi-Channel Quantum Defect Theory
20%
Material Science
Doppler Effect
100%
Ab Initio Calculation
33%