Recrystallization of thin amorphous silicon (a-Si) films can yield polysilicon (p-Si) material with functional properties suitable for fabrication of electronic devices, including high definition large area active matrix liquid crystal displays. Pulsed laser-effected melting and recrystallization is exceptionally effective since it avoids damage to the underlying insulator structure. The ensuing phase transformations and ultimately the quality of the produced p-Si material strongly depend on the temperature history. This article presents a review of research aiming to understand the complex nucleation, resolidification and crystal growth phenomena that evolve under severely non-equilibrium conditions. It is shown that elucidation of the fundamental thermodynamic processes enables conception of novel practical thin film crystal growth techniques.

Issue Section:
Review Papers
Keywords:
silicon, semiconductor thin films, elemental semiconductors, heat transfer, surface phase transformations, crystallisation, solidification, recrystallisation, laser beam annealing, nucleation, melting, Crystal Growth, Heat Transfer, Laser, Solidification, Thin Films
Topics:
Crystallization, Lasers, Nucleation (Physics), Temperature, Melting, Silicon, Excimer lasers, Thin films, Phase transitions, Recrystallization, Fluence (Radiation measurement), Annealing, Heat transfer, Solidification, Crystal growth
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