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Tungsten and Sapphire
Tungsten Crucible for Sapphire Growth Furnace Tungsten Crucible Cover for Crystal Growth Furnace Tungsten Bracket for Sapphire Furnace Tungsten Heat Shield for Crystal Furnace Tungsten Electrode Screen for Sapphire Crystal Furnace Tungsten Heater for Sapphire Growth Furnace Tungsten Wire Heater for Sapphire Crystal Furnace Tungsten Rhenium Wire for Sapphire Crystal Growth Furnace
Molybdenum Cover for Sapphire Growth Furnace
Molybdenum Barrel Screen for Crystal Growth Furnace Molybdenum Crucible for Sapphire Furnace Molybdenum Boat for Crystal Furnace Molybdenum Heat Shield for Sapphire Growth Furnace Molybdenum Bracket for Crystal Growth Furnace Thermal Field for Sapphire Growth Furnace Molybdenum Heating Furnace for Sapphire Growth Molybdenum Electrode Screen for Crystal Growth Furnace Molybdenum Heating Element for Sapphire Growth Furnace Molybdenum Hook for Saphhire Furnace Molybdenum Mandrel for Sapphire Crystal Furnace Molybdenum Stream Mouth for Crystal Growth Furnace Molybdenum Seed Chunk for Sapphire Crystal Growth Furnace
Manufacturing Tecniques of Sapphire Growth Furnace
Manufacturing Process of Tungsten and Molybdenum Manufacturing Process of Molybdenum Crucible for Sapphire Growth Furnace Manufacturing Process of Tungsten Crucible for Sapphire Growth Furnace Molybdenum Ore Selection Tungsten Ore Selection
Sapphire
Sapphire and LED Introduction to Sapphire History of Sapphire Growth Technique Kyropoulos Method for Sapphire Growth Czochralski Method for Sapphire Growth Edge Defined Film Fed Growth for Sapphire Growth Heat Exchanger Method for Sapphire Growth Temperature Gradient Technique for Sapphire Growth Vertical Gradient Freeze Method for Sapphire Growth Vertical Horizontal Gradient Freezing for Sapphire Growth SAPMAC for Sapphire Growth Sapphire and Optical Parts Sapphire and Micro-electronics Sapphire and Infrared Transmitting Material Process of Sapphire Growth Comparison of Sapphire Growth Techniques |
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GaN semiconductor epitaxial substrate body
ZnO, InN epitaxial film and other substrate body In Ⅲ-Ⅴ nitride in, InN is being more and more attention. Compared with GaN, AlN, InN having the smallest effective mass, in theory, it has the highest carrier mobility, so it has broad application prospects in terms of high-speed microelectronic devices. While Ⅲ-Ⅴ nitride, it also has the smallest direct bandgap, and its value is about 0.8eV, so that makes Ⅲ-Ⅴ nitride AlN emission wavelength may extend from the ultraviolet region (6.2eV) to InN infrared region (0.8eV), become a light emitting device suitable material preparation. However, the preparation of InN single crystal body is very difficult, so far people InN study is still in the initial stage, in a foreign country, Masuoka and others with MOVPE method on a sapphire substrate was the first successful single-crystal InN epitaxial film. In China, Xiao Hong, who led by RF plasma-assisted molecular beam epitaxy (RF-MBE) method on a sapphire substrate to obtain a better crystal quality single-crystal InN epitaxial film. High-temperature superconducting films such as YBa2Cu3O7 - δ (YBCO) the microwave surface resistance Rs than the conventional metal material several orders of magnitude can be used to design a high-performance passive microwave devices, such as filters, resonators, delay lines and the like. Sapphire crystals small dielectric constant, low dielectric loss and excellent microwave properties, mechanical strength, and high thermal conductivity, is more than 20 times LaAlO3 substrate. Large area sapphire single crystal material has industrial production and relatively inexpensive price, and therefore is a good substrate material. As a ferroelectric substrate material: used as a ferroelectric memory, spatial light modulators, optical switches, random access memory ferroelectric thin films, infrared detectors, drives, optical modulators, displays, etc., with excellent striking performance and use value. |
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