Publication: Pulsed Excimer (KrF) Laser Melting of Amorphous and Crystalline Silicon Layers
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Date
1985
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American Institute of Physics
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Citation
Narayan, J., C. W. White, M. J. Aziz, B. Stritzker, and A. Walthuis. 1985. Pulsed excimer (KrF) laser melting of amorphous and crystalline silicon layers. Journal of Applied Physics 57 (2): 564-567.
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Abstract
We have investigated depth of melting as a function of pulse energy density in amorphous and crystalline silicon layers. The melting threshold for KrF laser pulses (lambda=0.249 µm, tau=24×10−9 s) in amorphous (7660-Å-thick) and crystalline silicon layers were determined to be 0.16±0.02 and 0.75±0.05 J cm−2, respectively. The formation of fine- and large-polycrystalline regions was clearly identified in the amorphous silicon layers for energy densities below that needed for complete annealing. The role of explosive recrystallization in the formation of the fine polycrystalline region is discussed.
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Keywords
laser beam melting, experimental data, polycrystals, ion implantation, silicon ions, nucleation, annealing, photon collisions, amorphous state, silicon, recrystallization, excimer lasers, melting
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