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National Institute of Advance Industrial Science and Technology (AIST) | 論文
- Synthesis and Surface Acoustic Wave Property of Aluminum Nitride Thin Films Fabricated on Silicon and Diamond Substrates Using the Sputtering Method : Surfaces, Interfaces, and Films
- Preparation of polycrystalline VO2 films on glass and TiO2/glass substrates by means of excimer laser assisted metal organic deposition
- Preparation of Double-Sided YBCO Films on LaAlO_3 by MOD Using Commercially Available Coating Solution( Superconducting High-frequency Devices)
- Fabrication of Double-Sided YBa_2Cu_3O_7 Films on CeO_2-Buffered Sapphire Substrates by MOD Process( Superconducting High-frequency Devices)
- Electrical Properties of La_Ca_MnO_3 Thin Films Obtained by Metal-Organic Deposition (MOD) using Excimer Laser and Thermal Annealing
- Preparation of High-J_c YBa_2 Cu_3O_ Films on CeO_2-Buffered Yttria-Stabilized Zirconia Substrates by Fluorine-Free Metalorganic Deposition
- Large Temperature Coefficient of Resistance in La_Ca_MnO_3 Thin Films Obtained by Metal Organic Deposition Process
- Low Temperature Growth of Epitaxial La_Sr_MnO_3 Thin Films by an Excimer-Laser-Assisted Coating Pyrolysis Process
- Preparation of Epitaxial YBa_2Cu_3O_/CeO_2 Multilayer Films on Yttria-stabilized Zirconia (100) by All-Coating-Pyrolysis Process : Superconductors
- Preparation of PbTiO_3 Thin Films Using a Coating Photolysis Process with ArF Excimer Laser
- Direct Conversion of Metal Acetylacetonates and Metal Organic Acid Salts into Metal Oxides Thin Films Using Coating Photolysis Process with An ArF Excimer Laser
- Direct Conversion of Titanium Alkoxide into Crystallized TiO_2 (rutile) Using Coating Photolysis Process with ArF Excimer Laser
- Epitaxial Growth of Bi_4Ti_3O_ Thin Films on LaAlO_3 (012) and MgO (100) by Dipping-Pyrolysis Process
- Preparation of Epitaxial Pb(Zr, Ti)O_3 Thin Films on Nb-Doped SrTiO_3(100) Substrates by Dipping-Pyrolysis Process
- Critical Current Densities at 77 K in Ba_2YCu_3O_-Ag Films Prepared by Dipping-Pyrolysis Process
- Preparation and Superconducting Properties of Bi-Pb-Sr-Ca-Cu-O Films (T_c=106 K) by the Dipping-Pyrolysis Process
- Preparation of High-J_c Ba_2YCu_3O_ Films on SrTiO_3 (100) Substrates by the Dipping-Pyrolysis Process at 750℃
- Preparation of Superconducting Ba_2YCu_3O_/Ag Composite Films by the Dipping-Pyrolysis Process Using Metal Naphthenates at 750℃
- Effects of Annealing Conditions and Substrate Materials on the Superconducting Properties of Ba_2YCu_3O_ Films Prepared by the Dipping-Pyrolysis Process at 750℃
- Preparation of Superconducting Ba_2YCu_3O_ Films by the Dipping-Pyrolysis Process at 700° and 750℃