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Control of growth interface shape during InGaSb growth by vertical gradient freezing under microgravity, and optimization using machine learning

Rachid Ghritli, Yasunori Okano, Yuko Inatomi, S. Dost

2022Japanese Journal of Applied Physics16 citationsDOI

Abstract

Abstract The growth of high-quality InGaSb crystals by Vertical Gradient Freezing (VGF) under microgravity was numerically simulated. Machine learning tools were used to optimize the growth conditions. The study focuses on controlling growth interface shape which directly affects the quality and homogeneity of the grown crystals. Initially, Bayesian optimization was utilized to search for the most favorable growth conditions that promote a desirable flatter growth interface shape. Afterward, a reinforcement learning model was developed. The system was subjected to a lower temperature gradient near the feed crystal and to crucible rotation with a rate ranging according to the obtained optimal strategy. Results showed that the interface deformation is considerably reduced, and a flatter growth interface could be maintained. The growth rate and solute concentration uniformity were also improved. This adaptive control recipe proves to hold great potential in the continuous and rapid optimization of other crystal growth processes.

Topics & Concepts

Crystal growthHomogeneity (statistics)Materials scienceBayesian optimizationGrowth rateInterface (matter)Crucible (geodemography)Temperature gradientCrystal (programming language)Rotation (mathematics)Computer scienceBiological systemMechanicsComposite materialChemistryMathematicsCrystallographyArtificial intelligenceGeometryPhysicsCapillary numberMachine learningQuantum mechanicsProgramming languageCapillary actionComputational chemistryBiologySolidification and crystal growth phenomenaHeat Transfer and OptimizationAdvanced Semiconductor Detectors and Materials
Control of growth interface shape during InGaSb growth by vertical gradient freezing under microgravity, and optimization using machine learning | Litcius