In situ measurement of Bi4Ge3O12 interface supercooling during melt crystal growth

Golyshev, V. D.; Гоник, М. А.; Tsvetovsky, V. B.

doi:10.1016/s0022-0248(01)01990-x

Cited by 15 publications

(30 citation statements)

References 4 publications

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“…Contemporaneously with the development of the SHM, Golyshev and co-workers developed the closely related AHP method. [16][17][18][19][20] The AHP method has much in common with SHM and generally produces the same benefits, but differs somewhat in design and practice. As the name implies, the authors characterize it somewhat more abstractly, in terms of controlling the thermal field rather than in terms of the heater geometry.…”

Section: Shm and Ahp Methodsmentioning

confidence: 99%

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Feasibility study of cadmium zinc telluride growth using a submerged heater in a vertical bridgman system

Yeckel

Derby

2004

Journal of Elec Materi

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Computer simulations are performed to assess the feasibility of a submerged heater system for growth of cadmium zinc telluride (CZT). Adding a submerged heater to the vertical Bridgman configuration in the manner of the submerged heater method (SHM) and axial-heat-flux-close-to-the-phase-interface (AHP) systems allows superior control of the growth interface shape and significant reduction in thermal stress. Simulations demonstrate that maintaining a constant gap width between heater and growth interface is critical to achieving uniform axial segregation when using zone leveling. Radial segregation remains somewhat nonuniform, however, because of the poor mixing in the interface region.

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Section: Shm and Ahp Methodsmentioning

confidence: 99%

“…Adding a submerged heater to the vertical Bridgman configuration in the manner of the submerged heater method (SHM) [10][11][12][13][14][15] and axial-heat-flux-closeto-the-phase-interface (AHP) [16][17][18][19][20] systems are proposed to overcome these problems. A typical system is illustrated in Fig.…”

Section: Introductionmentioning

confidence: 99%

Feasibility study of cadmium zinc telluride growth using a submerged heater in a vertical bridgman system

Yeckel

Derby

2004

Journal of Elec Materi

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“…An interface undercooling could be large (for example, up to 20 K in bismuth germanate growth [22]). It is usually claimed that the facetting is harmful for crystal quality [41] and thus should be avoided by keeping thermal gradient above a critical value.…”

Section: Phase Boundariesmentioning

confidence: 99%

Industrial challenges for numerical simulation of crystal growth

Богданов¹,

Ofengeim²,

Zhmakin³

2004

Open Physics

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Abstract:Numerical simulation of industrial crystal growth is di¯cult due to its multidisciplinary nature and the complex geometry of the real-life growth equipment. An attempt is made to itemize physical phenomena dominant in the di¬erent methods for growth of bulk crystals from the melt and the vapor phase as well as to review corresponding numerical approaches. Academic research and industrial applications are compared. Development of a computational engine and a graphic user interface of the industry-oriented codes is discussed. A simulator for the entire growth process of bulk crystals by sublimation method is described.

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“…In the latter case melt/crystal boundary does not follow the melting point isotherm, but coinsides with a crystallographic plane. Interface undercooling could be large (for example, up to 20 K in bismuth germanate growth [10]). It is usually claimed that the facetting is harmful for crystal quality [29] and thus should be avoided by keeping thermal gradient above a critical value.…”

Section: Mathematical Modelsmentioning

confidence: 99%

Industrial Challenges for Numerical Simulation of Crystal Growth

Ofengeim¹,

Zhmakin

2003

Lecture Notes in Computer Science

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Abstract. Numerical simulation of industrial crystal growth is difficult due to its multidisciplinary nature and complex geometry of real-life growth equipment. An attempt is made to itemize physical phenomena dominant in different methods for growth of bulk crystals from melt and from vapour phase and to review corresponding numerical approaches. Academic research and industrial applications are compared. Development of computational engine and graphic user interface of industryoriented codes is discussesd. In conclusion, a simulator for the entire growth process of bulk crystals by sublimation method is described.

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In situ measurement of Bi4Ge3O12 interface supercooling during melt crystal growth

Cited by 15 publications

References 4 publications

Feasibility study of cadmium zinc telluride growth using a submerged heater in a vertical bridgman system

Feasibility study of cadmium zinc telluride growth using a submerged heater in a vertical bridgman system

Industrial challenges for numerical simulation of crystal growth

Industrial Challenges for Numerical Simulation of Crystal Growth

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