Title :
Spatially and spectrally resolved temperature dependence of defect related luminescence using hyperspectral imaging
Author :
Flo, Andreas ; Burud, Ingunn ; Olsen, Espen
Author_Institution :
Dept. Math. Sci. & Technol., Norwegian Univ. of Life Sci., As, Norway
Abstract :
Spatially and spectrally resolved defect related photoluminescence of multicrystalline Silicon wafers has been obtained through hyperspectral photoluminescence imaging. The defect related emissions has been studied as a function of temperature, between 300 K (room temperature) and 87 K. The emissions D1, 0.72 eV, VID3 (0.93 eV) and BB (1,1 eV) emissions are detectable at all temperatures and their peak intensities seem to shift to higher energies with decreasing temperatures. A similar shift in the peak energy for the D2 signal is measured, however, the D2 signal is not visible at room temperature and becomes detectable at 127 K. The D3 and D4 transitions do not exhibit a shift in photon energy with temperature.
Keywords :
crystal defects; elemental semiconductors; hyperspectral imaging; photoluminescence; silicon; Si; defect related luminescence; hyperspectral photoluminescence imaging; multicrystalline silicon wafers; spatially resolved temperature dependence; spectrally resolved temperature dependence; temperature 293 K to 298 K; Hyperspectral imaging; Image resolution; Photoluminescence; Silicon; Spontaneous emission; Temperature dependence; Temperature measurement; D-line emissions; SRH-recombination; crystal defects; deep-level spectroscopy; hyperspectral photoluminescence imaging; multicrystalline silicon; temperature dependence;
Conference_Titel :
Photovoltaic Specialist Conference (PVSC), 2014 IEEE 40th
Conference_Location :
Denver, CO
DOI :
10.1109/PVSC.2014.6925293
