Numerical investigation of the effects of axial temperature gradient and cooling rate on InGaSb crystal growth under micro-gravity

Jin, Xin; Bing, Wang

doi:10.1016/j.jcrysgro.2023.127110

Cited by 3 publications

(1 citation statement)

References 18 publications

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“…The experimental cost in a microgravity environment is relatively expensive and is considered an extreme condition in physics. Xin Jin et al [27] conducted a numerical analysis of the effects of axial temperature gradient and cooling rate on crystal growth under microgravity conditions. They believed that controlling these two influencing factors could lead to the growth of high-quality single crystals.…”

Section: Crystal Growth Via Convection and Stirringmentioning

confidence: 99%

Research on Single Crystal Preparation via Dynamic Liquid Phase Method

Wang

Zhou

2023

Crystals

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Traditional liquid phase methods for growing single crystals are static growth methods, which include seed crystal sedimentation growth and seed crystal clamping growth using seed crystal holders. Single crystals grown via seed crystal sedimentation often have a flat and elongated shape, and the region in contact with the bottom of the container is restricted during growth, resulting in significant defects. Similarly, the seed crystal clamping growth method cannot avoid contact with external objects, leading to abnormal growth at the contact points and along the direction of the seed crystal holder, also resulting in certain defects. Both of these growth methods require processes, such as cutting and grinding, to remove defects, resulting in resource waste. To address the shortcomings of the static liquid phase single-crystal preparation mentioned above, this study successfully designed a dynamic liquid phase method for single crystal growth, which achieved the successful suspension of seed crystals in the mother solution and the growth of high-quality, large-sized single crystals, avoiding contact with the walls and the bottom of the container during the crystal growth process. Based on the dynamic liquid phase single crystal growth apparatus mentioned above, stable and dynamic liquid phase preparation was successfully achieved, ranging from seed crystals with a diameter of approximately 5 mm to single crystals with a diameter of approximately 20 mm, by controlling the cooling rate and adjusting the solution flow rate.

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Section: Crystal Growth Via Convection and Stirringmentioning

confidence: 99%