Monte Carlo Analysis of Stress-Directed Phase Segregation in Binary Thin Film Alloys Under Nonisothermal Annealing
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Departmental Papers (MSE)
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annealing
diffusion
polymers
precipitation
solid solutions
Chemical Engineering
Engineering
Materials Science and Engineering
Polymer and Organic Materials
diffusion
polymers
precipitation
solid solutions
Chemical Engineering
Engineering
Materials Science and Engineering
Polymer and Organic Materials
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Abstract
The use of patterned stress fields to direct phase separation in thin film alloys is investigated computationally with Monte Carlo simulations in which atomic interactions are represented by a Lennard-Jones potential. We show that careful design of annealing schedules based on consideration of the system phase diagram can lead to vastly enhanced patterning kinetics. In particular, by avoiding the low temperature formation of highly stable nuclei within the entire system, the kinetics of patterning are accelerated by rapid monomerdiffusion, rather than classical Ostwald ripening in which small precipitates must dissolve to feed larger ones.
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2008-01-01
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Applied Physics Letters