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Simulations of time-resolved photoluminescence experiments in α-Al
2
O
3
:C
Vasilis Pagonis
*
,
Reuven Chen
, John W. Maddrey
, Benjamin Sapp
*
Corresponding author for this work
School of Physics and Astronomy
McDaniel College
Research output
:
Contribution to journal
›
Article
›
peer-review
27
Scopus citations
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Dive into the research topics of 'Simulations of time-resolved photoluminescence experiments in α-Al
2
O
3
:C'. Together they form a unique fingerprint.
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Keyphrases
Time-resolved Photoluminescence
100%
Al2O3-C
100%
Thermoluminescence
60%
Thermal Quenching
60%
Thermally Stimulated Conductivity
60%
Recombination Centers
40%
Stimulated Luminescence
40%
Dosimetric Materials
40%
Luminescence Lifetime
40%
Thermal Ionization
40%
Electronic Transitions
20%
Mechanism-based
20%
UV Light
20%
Heating Rate
20%
Charge Carriers
20%
Short Pulse
20%
Photoluminescence
20%
Measurement Accuracy
20%
Quantitative Characterization
20%
F-center
20%
Luminescence Intensity
20%
Shallow Traps
20%
Luminescence Signal
20%
Radioluminescence
20%
Relaxation Period
20%
Engineering
Thermoluminescence
100%
Recombination Centre
66%
Thermal Model
66%
Good Agreement
33%
Experimental Result
33%
Simulation Result
33%
Heating Rate
33%
Quenching
33%
Charge Carrier
33%
Chemistry
Photoluminescence
100%
Aluminum Oxide
100%
Thermoluminescence
50%
Luminescence Lifetime
33%
Electronic Transition
16%
Relaxation
16%
Shallow Trap
16%
Color Center
16%
Radioluminescence
16%
Charge Carrier
16%
Material Science
Photoluminescence
100%
Aluminum Oxide
100%
Luminescence
83%
Thermoluminescence
50%
Charge Carrier
16%
Color Center
16%
Physics
Photoluminescence
100%
Thermoluminescence
50%
Ultraviolet Radiation
16%
Color Center
16%
Chemical Engineering
Heating Rate
100%