Deep-centre characterisation by thermally controlled paramagnetic resonance: TCPR
Author:
Publisher
IOP Publishing
Subject
General Physics and Astronomy,General Engineering,Condensed Matter Physics
Link
http://stacks.iop.org/0022-3719/17/i=13/a=020/pdf
Reference22 articles.
1. Deep center characterization by optically‐controlled paramagnetic resonance in AgGaS2
2. First-order kinetics in thermoluminescence and thermally stimulated conductivity
3. Spectroscopies thermique et optique des niveaux profonds : Application à l'étude de leur relaxation de réseau
4. II. Correlations Between Thermoluminescence and Thermally Stimulated Conductivity
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1. A combined EPR and modulated photocurrent study of native defects in Bridgman grown vanadium doped cadmium telluride: the case of the tellurium antisite;Semiconductor Science and Technology;2003-08-11
2. Thermoluminescence mechanism inCdF2:Eu;Physical Review B;1992-09-15
3. Electron paramagnetic resonance study of thermal donors in Fe‐doped InP;Journal of Applied Physics;1991-12-15
4. Thermal donor formation in Fe‐doped semi‐insulating InP;Applied Physics Letters;1990-12-03
5. On the application of the photo-EPR technique to the studies of photoionization, DAP recombination, and non-radiative recombination processes;physica status solidi (a);1985-07-16
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