Stress in pulsed-laser-crystallized silicon films

Stress in pulsed-laser-crystallized silicon films was investigated using hi gh-resolution Raman scattering measurements. Film stress was evaluated base d on the peak shift of transverse optical (TO) phonon of crystalline silico n in Raman scattering spectra. The tensile stress in laser-crystallized 50- nm-thick silicon films on glass substrates increased from 3.5 x 10(8) Pa to 9.7 x 10(8) Pa as the him deposition temperature increased from 200 degree sC to 480 degreesC. The peak shift of laser-crystallized microcrystalline s ilicon (muc-Si) films revealed that the tensile stress introduced by laser irradiation was 2.3 x 10(8) Pa at most. These results indicate that the str ong tensile stress is introduced by the silicon film deposition rather than by the pulsed-laser crystallization. Also, the authors demonstrate that pu lsed-laser crystallization maintains the existing stress at the growth init iation sites in the bottom region of silicon films.