Keyphrases
Monte Carlo Simulation
100%
Optically Stimulated Luminescence
100%
Thermoluminescence
100%
Feldspar
100%
Multiple Peaks
66%
Trapping Centers
66%
Charge Carriers
66%
Recombination Centers
66%
Luminescence Signal
66%
Electron Traps
33%
Physical Properties
33%
Phenomena-based
33%
Charge Density
33%
Nearest Neighbor
33%
Nanoclusters
33%
Electron Recombination
33%
Recombination Mechanism
33%
Monte Carlo Method
33%
Spatially Correlated
33%
Simplified Method
33%
Conduction Band Electron
33%
Microcrystalline
33%
Spatial Correlation
33%
Cluster Size
33%
Active Research
33%
Small Clusters
33%
Allowed Transitions
33%
Trap Filling
33%
Linearly Modulated
33%
Tunneling Recombination
33%
Luminescence Properties
33%
Correlated Materials
33%
Energy Band Model
33%
Traditional Energy
33%
Luminescent Materials
33%
Donor Charge
33%
Engineering
Thermoluminescence
100%
Recombination Centre
66%
Charge Carrier
66%
Tunnel Construction
33%
Charge Density
33%
Simplified Method
33%
Cluster Size
33%
Spatial Correlation
33%
Energy Band
33%
Microcrystalline
33%
Band Model
33%
Nanoclusters
33%
Active Research
33%
Luminescence Property
33%
Nearest Neighbor
33%
Conduction Band
33%
Electron Trap
33%
Material Science
Thermoluminescence
100%
Optically Stimulated Luminescence
100%
Feldspar
100%
Luminescence
66%
Charge Carrier
66%
Density
33%
Physical Property
33%
Nanoclusters
33%
Luminescent Material
33%
Chemistry
Monte Carlo Method
100%
Thermoluminescence
100%
Charge Carrier
66%
Charge Density
33%
Donor
33%
Conduction Band
33%
Luminiscence Type
33%
Microcrystallinity
33%
Electron Trap
33%
Physics
Thermoluminescence
100%
Monte Carlo Method
100%
Monte Carlo
33%
Conduction Band
33%
Energy Band
33%
Nanoclusters
33%