Fundamental Science and EngineeringCreative Science and EngineeringAdvanced Science and EngineeringⅠ FeaturesⅡ History and ProfileⅢ RequirementsCONTENTSSupervisorResearch on Physical Chemistry of MaterialsResearch on Quantum Materials PhysicsResearch on Condesed Matter ScienceResearch on Reaction Dynamics of MaterialsResearch on Physics of Amorphous MaterialsResearch on Computational Mathematics for MaterialsResearch on Mathematics for MaterialsResearch on Mathematics for MaterialsResearch on Materials Process EngineeringResearch on Micro and Nano EngineeringResearch on Composite Materials EngineeringResearch on Mechanics of MaterialsResearch on Engineering of Controlled Crystalline StructuresResearch on Corrosion and Surface ChemistryResearch on Physics of Low-dimensional MaterialsResearch on Nanomaterials EngineeringResearch on Physics of Artificial Quantum MaterialsCourse NameITO, KimihisaYAMAMOTO, TomoyukiYAMAMOTO, TomoyukiKUNIOSHI, NilsonHIRATA, AkihikoOGITA, TakeshiMARUNO, KenichiTAKAHASHI, DaisukeKAWAGISHI, Kyoko/SUZUKI, Shinsuke/HIROMOTO, SachikoIWASE, EijiKAWADA, HiroyukiHOSOI, AtsushiKAWAGISHI, Kyoko/SUZUKI, ShinsukeSUZUKI, Shinsuke/HIROMOTO, SachikoNORIMATSU, WataruARAO, Yoshihiko/HOSOI, AtsushiUCHINO, Shun◇ Fundamental Materials Division◆ Fundamental Metallic MaterialsDeep understanding of the fundamental phenomena involved in the fabrication and processing of metallic materials, and development of novel fabrication and processing techniques are critical for maintaining sustainable growth of society. Solutions for related environmental, resources, and energy issues are sought through methods based on the physical chemistry involved in the phenomena. In addition, dramatic improvement of mechanical properties of materials is sought through control at the microstructural level in melting, solidification, casting, and deformation processes.◆ Fundamental Condensed Matter ScienceThe most fundamental properties of materials can be analyzed and elucidated in more detail if seen from a microscopic viewpoint. Researchers specialized in quantum mechanics, solid state physics, crystallography, statistical mechanics, and X-ray spectroscopy conduct fundamental research in this area. Concretely, theoretical research that integrates quantum many-body physics with quantum information science, materials chemistry research through quantum chemical calculations, analysis of defect structures at the atomic level using synchrotron radiation, analysis of atomic arrangements by diffraction crystallography using transmission electron microscopes and mathematical methods based on topology are examples of research topics.・ One credit must be earned from the Research Ethics Courses among the Common Doctoral Courses.・ Four credits must be earned from the English Courses, Industrial Society/Liberal Arts Courses, Self-Competence Development (Business Creation) courses among the Common Doctoral Courses.(I) Research guidance (Doctoral program)Guidelines for earning a Doctoral DegreeStudents must fulfill each of the following requirements and earn a total of at least 5 credits.81
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