INIS
scintillators
100%
applications
100%
doped materials
100%
dipoles
66%
decay
66%
energy transfer
66%
emission
33%
increasing
33%
single crystals
33%
dynamics
33%
cesium 137
33%
scintillations
33%
sensitizers
33%
energy
33%
spectra
33%
spectroscopy
33%
x radiation
33%
exchange interactions
33%
interactions
33%
energy resolution
33%
pulses
33%
relaxation
33%
height
33%
MeV range
33%
spin
33%
yields
33%
x-ray spectra
33%
photoluminescence
33%
concentration
33%
luminescence
33%
Chemistry
Application
100%
Energy
66%
Energy Transfer
66%
Rate
66%
Photoluminescence Spectroscopy
33%
Dipole Interaction
33%
Luminiscence Spectrum
33%
Electronic Band Structure
33%
Concentration
33%
Exchange Interaction
33%
X-Ray Spectra
33%
Relaxation
33%
Single Crystalline Solid
33%
X-Ray
33%
Physics
Near Infrared
100%
Utilization
100%
Energy Transfer
66%
Spin
33%
Photoluminescence
33%
Spectrometer
33%
Spectroscopy
33%
X Ray
33%
Pulse
33%
Luminescence
33%
X Ray Spectra
33%
Increasing
33%
Single Crystal
33%
Spectra
33%
Engineering
Application
100%
Scintillator
100%
Energy Engineering
100%
Dipole Interaction
25%
Requirement
25%
Characteristics
25%
Yield
25%
Pulse Height
25%
Band Structure
25%
Keyphrases
Decay Studies
20%
Scintillation Characteristics
20%