Time Resolved Luminescence Measurements of Gallium Arsenide and of Gallium Arsenide Photodetectors |
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Page 17
... samples . Closer examination of the data for the lightly doped sample shows some deviation from linear behavior . For convenience , GaAs samples and their characteristics are listed in Table 2.1 . Data for samples 1 , 2 , and 6 ( light ...
... samples . Closer examination of the data for the lightly doped sample shows some deviation from linear behavior . For convenience , GaAs samples and their characteristics are listed in Table 2.1 . Data for samples 1 , 2 , and 6 ( light ...
Page 31
... GaAs samples as a function of doping , wavelength , and photoexcitation density which support many of the qualitative features of the model will be presented . In addition , based on the analysis in Chapter 2 , the importance of the ...
... GaAs samples as a function of doping , wavelength , and photoexcitation density which support many of the qualitative features of the model will be presented . In addition , based on the analysis in Chapter 2 , the importance of the ...
Page 34
... GaAs samples . and 4.7x1018 cm -3 respectively . For both samples , the nearly constant power law behavior mentioned in Chapter 2 over the photoexcitation density in the experiment is evident . range of For the more lightly doped sample ...
... GaAs samples . and 4.7x1018 cm -3 respectively . For both samples , the nearly constant power law behavior mentioned in Chapter 2 over the photoexcitation density in the experiment is evident . range of For the more lightly doped sample ...
Common terms and phrases
active layer active region AlGaAs algorithm Appl ASWRIT+ASSAMF Ballantyne band-to-band recombination best fit bias voltage bimolecular broadband calculation CALL OPNPSA('TYPE CALL TNOU INPUT capacitance capacitor carrier population carrier transport Chapter conduction band curve Czochralski described device of Fig DIST(I distribution DLTAT doped doping density dye laser effects electrons and holes electrostatic potential energy equilibrium evaporation experimental experiments Figure FNAME function GaAs GaAs epilayers GaAs samples GALLIUM ARSENIDE high fields hole sweepout inductor inescence laser power Lehmen Lett lifetime lightly doped sample Luminescence decay luminescence measurements luminescence signal Mask Level micron NINCR nonlinearity nonradiative decay Np(t NTOT ohmic contact OLAP perturbation phonon photoconductor photoexcited carrier density photoresist Phys picosecond plot Poisson's equation power law probe created carriers pump pump-probe quasi-Fermi level radiative rate equation resolved measurements scence Schottky diode semiconductor Shorinji Kempo shown in Fig shows simple thesis time-resolved transit VELH velocity voltage drop wafers wavelength