Skip to main navigation
Skip to search
Skip to main content
Illinois Experts Home
LOGIN & Help
Home
Profiles
Research units
Research & Scholarship
Datasets
Honors
Press/Media
Activities
Search by expertise, name or affiliation
Excitation mechanisms of multiple Er
3+
sites in Er-Implanted GaN
S. Kim
, S. J. Rhee
,
X. Li
, J. J. Coleman
, S. G. Bishop
, P. B. Klein
Electrical and Computer Engineering
Research output
:
Contribution to journal
›
Article
›
peer-review
Overview
Fingerprint
Fingerprint
Dive into the research topics of 'Excitation mechanisms of multiple Er
3+
sites in Er-Implanted GaN'. Together they form a unique fingerprint.
Sort by
Weight
Alphabetically
Keyphrases
Er3+
100%
Excitation Mechanism
100%
Absorption Bands
66%
Photoluminescence Spectra
50%
Semiconductors
33%
Photoluminescence
33%
Implantation Damage
33%
Induced Defects
33%
Impurity Defects
33%
Er3+ Emission
33%
Two-site
16%
Band Gap
16%
Impurities
16%
As-grown
16%
Crystalline Semiconductor
16%
Electron Injection
16%
Photoluminescence Spectroscopy
16%
Nonradiative Energy Transfer
16%
Specific Absorption Rate
16%
F-electrons
16%
Excitation Process
16%
Electron-hole Pair
16%
GaN Films
16%
Er3+ Luminescence
16%
Carrier Capture
16%
Optical Excitation
16%
Isoelectronic Trap
16%
Site-selective
16%
Photoluminescence Bands
16%
Energy Transfer Process
16%
Electrical Injection
16%
Thermal Quenching
16%
Optical Injection
16%
Engineering
Related Defect
100%
Excitation Spectrum
100%
Induced Defect
100%
Transfer Process
50%
Broad Band
50%
Quenching
50%
Optical Gap
50%
Electrical Injection
50%
Hole Pair
50%
Band Gap
50%
Chemistry
Photoluminescence
100%
Absorption Spectra
66%
Spectroscopy
16%
Band Gap
16%
Photoexcitation
16%
Energy Transfer Processes
16%
Photoluminescence Spectrum
16%
Nonradiative Energy Transfer
16%
Electron-Hole Pair
16%
formation
16%
Material Science
Photoluminescence
100%
Absorption Spectra
57%
Film
14%
Transfer Process
14%
Luminescence
14%
Chemical Engineering
Film
100%
Physics
Photoexcitation
14%