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Spatiotemporal chaos near the onset of cellular growth during thin-film solidification of a binary alloy (1992)

Tsiveriotis, K. ; Lee, J. T. C. ; Brown, R. A.

In: Other Sources

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Publication Date: 2019-08-28

Description: Thin-film solidification experiments with a succinonitrile-acetone alloy are used to observe the long time-scale dynamics of cellular crystal growth at growth rates only slightly above the critical value VC = Vc(lambda sub c) for the onset of morphological instability. Under these conditions only very small amplitude cells are observed with wavelengths near the value predicted by linear stability theory lambda = lambda sub c. At long times, microstructures with wavelengths significantly finer than lambda suc c form by nucleation at defects across the interface. These interfaces do not have a unique microstructure, but seem to exhibit spatiotemporal chaos on a long time scale caused by the continual birth and death of cells by tip splitting and cell annihilation in grooves.

Keywords: SOLID-STATE PHYSICS

Type: Journal of Crystal Growth (ISSN 0022-0248); 121; 3 Ju; 536-542

Format: text

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Dynamics of Bridgman-Stockbarger growth of non-dilute binary alloys (1985)

Bourret, E. D. ; Brown, R. A. ; Derby, J. J.

In: Other Sources

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Publication Date: 2019-07-12

Description: The coupling between heat and mass transfer in the Bridgman-Stockbarger growth of nondilute crystals induces growth rate transients that are longer than those caused by heat transfer alone. The dynamics of the diffusion-controlled growth for thermophysical properties representative of Pb(1-x)Sn(x)Te and Hg(1-x)Cd(x)Te are computed from a one-dimensional solidification model which includes melt-crystal phase behavior. Results show that the growth rate response to a step change in pull rate for both systems differs from the exponential decay observed for dilute alloys and that growth rates cannot be inferred from axial segregation data in nondilute systems due to the dependence of the segregation coefficient on composition.

Keywords: SOLID-STATE PHYSICS

Type: Journal of Crystal Growth (ISSN 0022-0248); 71; 587-596

Format: text

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A thermal-capillary mechanism for a growth rate limit in edge-defined film-fed growth of silicon sheets (1986)

Thomas, P. D. ; Brown, R. A. ; Ettouney, H. M.

In: Other Sources

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Publication Date: 2019-07-12

Description: Capillarity, acting to set the shape of the melt/gas interfaces, and heat transfer can interact to cause limits to steady-state growth of thin silicon sheets by the Edge-Defined Film-Fed Growth (EFG) method. A finite-element/Newton solution method for a two-dimensional thermal-capillary model of EFG is used to show that limiting values of pull rate exist beyond which steady-state growth is impossible. The pull rate limit is also predicted by a one-dimensional heat transfer model valid when the die sides and menisci are almost parallel and when the thermal conductivities of melt, crystal, and die are all equal. Both the one- and two-dimensional heat transfer models show that heat loss from the melt is dominated by conduction into the crystal and slow heat release to the ambient along the length of the ribbon. The limiting pull rate results from the reduced efficiency of conduction through the melt caused by the curvature of the meniscus which increases height of the die top above the level of the melt. Thermal-capillary limits are predicted for both positive and negative pressure differences across the meniscus.

Keywords: SOLID-STATE PHYSICS

Type: Journal of Crystal Growth (ISSN 0022-0248); 76; 2 Au

Format: text

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