Title :
Silicon temperature measurement by infrared absorption. Fundamental processes and doping effects
Author :
Sturm, James C. ; Reaves, Casper M.
Author_Institution :
Dept. of Electr. Eng.. Princeton Univ., NJ, USA
fDate :
1/1/1992 12:00:00 AM
Abstract :
The fundamental absorption mechanisms in silicon at 1.30 and 1.55 μm have been investigated in the temperature range of 500-800°C. For lightly doped wafers in this temperature range, the absorption at 1.55 μm is by free carriers. and that at 1.30 μm is predominantly by bandgap absorption. The effect of heavy substrate doping on infrared absorption at an elevated temperature has also been studied, and it was found that doping has little effect below levels of 7×1017 cm-3. Above that level, the temperature dependence of free carrier absorption strongly affects the transmission as a function of temperature. The knowledge of the fundamental absorption processes is then used to predict the ultimate temperature ranges over which the technique will be useful
Keywords :
elemental semiconductors; heavily doped semiconductors; impurity and defect absorption spectra of inorganic solids; infrared spectra of inorganic solids; semiconductor doping; silicon; spectral methods of temperature measurement; 1.3 micron; 1.55 micron; 500 to 800 degC; Si; absorption mechanisms; bandgap absorption; doping effects; free carrier absorption; heavy substrate doping; infrared absorption; lightly doped wafers; temperature dependence; temperature measurement; Doping; Electromagnetic wave absorption; Optical surface waves; Silicon; Substrates; Surface waves; Temperature dependence; Temperature distribution; Temperature measurement; Wavelength measurement;
Journal_Title :
Electron Devices, IEEE Transactions on
