Chemical Compounds
Laser Induced Fluorescence Spectroscopy
100%
Acetylene
68%
Vibronic Level
65%
Ground State
52%
Electronic State
50%
Predissociation
50%
Vibrational Energy
43%
Bending Vibration
41%
Rotational Constant
40%
Excited State
38%
Ab Initio Calculation
36%
Electronic Transition
33%
Renner-Teller Effect
32%
Excited Electronic State
31%
Rotational Transition
31%
Molecular Beam
30%
Vibrational State
28%
Jet
24%
Fluorescence Lifetime
24%
Laser Spectroscopy
24%
Far-Infrared Spectrum
23%
Photodissociation
20%
Molecule
20%
Photolysis
19%
Emission Spectrum
19%
Harmonic Oscillator
17%
Spectroscopy
16%
Electron Configuration
16%
Energy
16%
Spin-Rotation Constant
16%
Vibrational Frequency
15%
Fluorescence Excitation Spectrum
15%
Microwave
14%
Dipole
14%
Internal Conversion
14%
Oscillator Model
13%
Dissociation
12%
Translational Energy
12%
Vibronic Coupling
12%
Azulene
12%
Hamiltonian
11%
Selection Rule
11%
Fluorescence
11%
Hydrogen Cyanide
11%
Bond Length
11%
Microwave Spectrum
11%
Ionization Potential
11%
Spin-Orbit Coupling
10%
Hydrogen Atom
10%
Methane
10%
Physics & Astronomy
laser induced fluorescence
63%
acetylene
56%
electronics
39%
fluorescence
36%
life (durability)
34%
excitation
33%
bending vibration
26%
infrared spectra
25%
ground state
22%
vibrational states
19%
laser spectroscopy
19%
molecules
18%
spectroscopy
17%
vibration
17%
photolysis
17%
lasers
16%
cations
15%
forbidden transitions
14%
fragments
14%
azulene
14%
hydrocyanic acid
13%
internal conversion
13%
energy
13%
scandium
13%
emission spectra
12%
pyrenes
12%
high resolution
12%
microwave spectra
11%
laser pumping
11%
free jets
11%
dissociation
10%
wavelengths
10%
electronic structure
10%
dipoles
9%
symmetry
9%
isotope effect
9%
products
9%
photodissociation
9%
submillimeter waves
9%
ultraviolet lasers
9%
methylidyne
8%
geometry
8%
molecular beams
8%
deuterium
8%
microwaves
8%
ionization
7%
fiber lasers
7%
sapphire
7%
carbon
7%
hydrogen atoms
7%