GLOBAL ANALYSIS OF HEAT TRANSFER IN CZ CRYSTAL GROWTH OF OXIDE
スポンサーリンク
概要
- 論文の詳細を見る
For the crystal growth of LiNbO3, a global analysis of heat transfer in an inductively heated CZ furnace was carried out by use of the finite element method. The effects of the temperature dependency of physical properties such as viscosity and surface tension of the melt, as well as the effect of processing parameters such as crystal rotation, on the flow and temperature fields in the furnace and on the melt/crystal interface shape were investigated. With the mathematical model developed in the present work, the interface inversion caused by crystal rotation was demonstrated theoretically. It is found that the effect of the temperature dependency of viscosity on CZ crystal growth is not significant under the conditions used here, and that the thermocapillary force strongly affects crystal growth. The critical crystal rotation rate at which the interface inversion occurs becomes much larger, and the RF coil current required to keep the crystal diameter constant becomes smaller, in comparison with those without thermocapillary flow in the melt.
- 社団法人 化学工学会の論文
- 1994-02-20
著者
-
IMAISHI Nobuyuki
Institute of Advanced Material Study, Kyushu University
-
TSUKADA Takao
Institute for Chemical Reaction Science, Tohoku University
-
HOZAWA Mitsunori
Institute for Chemical Reaction Science, Tohoku University
-
Imaishi N
Kyushu Univ. Fukuoka Jpn
-
Tsukada Takao
Department Of Chemical Engineering Tohoku University
-
Tsukada Takao
Institute For Chemical Reaction Science Tohoku University
-
Imaishi Nobuyuki
Institute Of Advanced Material Study Kyushu University
-
Hozawa M
Tohoku Univ. Sendai
-
Hozawa Mitsunori
Institute For Chemical Reaction Science Tohoku University
関連論文
- Observation of Periodic Marangoni Convection in a Molten Silicon Bridge on board the TR-IA-6 Rocket (TR-IA6号機特集(1))
- EXPERIMENTAL AND NUMERICAL ANALYSES OF CRYSTALLIZATION PROCESSES OF In_Ga_Sb UNDER DIFFERENT GRAVITY CONDITIONS
- Melt Mixing of the 0.3In/0.7GaSb/0.3Sb Solid Combination by Diffusion under Microgravity
- Numerical Simulation of Oxide Melt Flow in a Crucible with a Constant Temperature Side Wall
- Three-Dimensional Oscillatory Marangoni Flow in Half-Zone Liquid Bridges of Pr=1 Fluid
- Measurement of Temperature Fluctuations in Marangoni Convection in a Half-zone Silicon Melt on Board the TR-IA-4 Rocket (特集 TR-IA4号機)
- Nonlinear Oscillations of Molten Silicon Drops in Electromagnetic Levitator
- IMMOBILIZATION OF MITOCHONDRIAL MEMBRANE IN SEPHAROSE 4B VIA PROTEOLIPOSOME RECONSTITUTION AND ITS D-β-HYDROXYBUTYPATE DEHYDROGENASE A CTIVITY
- Reaction Engineering Modeling of Low-Pressure Metalorganic Chemical Vapor Deposition of Nb_2O_5 Thin Film
- Noncontact Modulated Laser Calorimetry for Liquid Austenitic Stainless Steel in dc Magnetic Field
- Measurement of Thermal Diffusivity of Nonlinear Optical Polymer Thin Films Using Photoacoustic Method
- EFFECT OF EHD CONVECTION ON MOTION OF A BUBBLE UNDER MICROGRAVITY
- Noncontact Measurements of Heat Capacity, Thermal Conductivity and Emissivity of High Temperature Melts by Modulated Laser Calorimetry
- Transition Phenomena on Marangoni Convection in Low Pr Number Liquid Bridge
- TRANSITION OF FLOW MODE IN A MODEL CZ MELT
- MARANGONI CONVECTION IN A LIQUID BRIDGE UNDER MICROGRAVITY CONDITIONS DURING PARABOLIC FLIGHT
- GLOBAL ANALYSIS OF HEAT TRANSFER IN CZ CRYSTAL GROWTH OF OXIDE
- INTERFACIAL CONTAMINATION CAUSED BY WATER ON MARANGONI CONVECTION IN A SILICONE OIL LIQUID BRIDGE
- A THEORETICAL STUDY OF THE TEMPERATURE FIELD IN A PANCAKE CVD REACTOR
- EFFECT OF A FUNNEL-SHAPED RADIATION SHIELD ON THE CHARACTERISTICS OF A SILICON CZ FURNACE
- Finite Element Analysis of Electrohydrodynamic Time-Dependent Deformation of Dielectric Drop under Uniform DC Electric Field
- EXPERIMENTAL AND THEORETICAL STUDIES ON DRYING OF FOOD MATERIALS
- EFFECT OF AN ELECTRIC FIELD ON THE BEHAVIOR OF A DROP MOVING IN A QUIESCENT LIQUID
- THEORETICAL AND EXPERIMENTAL STUDIES OF CIRCULATIONS INSIDE AND OUTSIDE A DEFORMED DROP UNDER A UNIFORM ELECTRIC FIELD
- Effect of Internal Radiative Heat Transfer on Melt/Crystal Interface Shape in Czochralski Growth of Oxide Crystals
- Full Finite Element Analyses for Leveling of a Polymer/Solvent Film Accompanying with Drying Shrinkage
- Relationship between Applied Static Magnetic Field Strength and Thermal Conductivity Values of Molten Materials Measured Using an EML Technique
- Properties of molten silicon for numerical simulations
- Shape of Film Grown on Microsize Trenches and Holes by Chemical Vapor Deposition: 3-Dimensional Monte Carlo Simulation
- Modeling of Tungsten Thermal Chemical Vapor Deposition
- A STUDY OF DESALINATION USING A DOUBLE-LIQUID MEMBRANE
- Relationship between Applied Static Magnetic Field Strength and Thermal Conductivity Values of Molten Materials Measured Using the EML Technique
- Noncontact Laser Modulation Calorimetry for High-Purity Liquid Iron
- Vapor-Liquid Equilibria of Acetone-Methanol-Methyl Methacrylate Ternary System
- Melt Mixing of the 0.3In/0.7GaSb/0.3Sb Solid Combination by Diffusion under Microgravity
- Theoretical and experimental studies of the deformation of bubbles moving in quiescent Newtonian and non-Newtonian liquids.
- Effect of coexisting aluminum on solvent extraction of gallium from mixed aqueous solutions with 2-bromodecanoic acid.
- Theoretical and experimental studies on the behavior of a compound drop under a uniform DC electric field.
- Effect of interface inversion on thermal stress field in CZ crystal growth of oxide.
- Effect of a radiation shield on thermal stress field during Czochralski crystal growth of silicon.