Graduate School of Engineering
Master's Courses
Graduate Course in Applied Physics
The Graduate Course in Applied Physics consists of the following divisions and research areas.
(1) Applied Physics: active generation of turbulence and flow control, X-rayE-ray astronomy
and the instrument-developments, nuclear and particle physics as well as those applications,
electronic and atomic collisions and molecular reactions
(2) Materials Science and Engineering: characterization of crystal defects by X-ray diffraction
and electron microscopy, and dielectrics, material properties on semiconductors, development of the
investigation methods of semiconductors.
(3) Applied Mathematical Science: nonlinear dynamical systems, mathematical modeling, potential
analysis, mathematical modeling, nonlinear differential equations
potent compounds by chemical and enzymatic reactions
Graduate Course in Applied Chemistry
The Graduate Course in Applied Chemistry consists of the following divisions and research areas.
(1) Materials Science and Engineering: reaction chemical engineering, synthesis of functional inorganic
materials and their applications
(2) Organic Chemistry: Organic photochemistry, synthesis of biologically potent compounds by chemical
and enzymatic reactions
(3) Biotechnology: physics of macromolecules, industrial biochemistry and biotechnology
Graduate Course in Electrical and Electronic
Engineering
The Graduate Course in Electrical and Electronic Engineering conducts
research and instructional programs in three main areas; Physical Electronics
Electronic Systems, and Electrical Energy. The physical Electronics area
encompasses applied optical engineering, opto-quantum engineering, opto-electronics
materials engineering, electronic and optical properties of solid, physics
of solid state device, advanced solid state physics, high energy astrophysics,
and nonlinear mathematics. The Electronic Systems area encompasses advanced
VLSI system design, advanced circuits synthesis, nonlinear systems, optimization
of stochastic systems, advanced intelligent information system, advanced
computer architecture, and optical communication system. The Electrical
Energy area covers fundamental theory of quantum electronic engineering,
and advanced studies of plasma engineering, laser applications engineering,
high voltage engineering, applied engineering, energy engineering and control
engineering.
Graduate Course in Civil and Environmental
Engineering
The Graduate Course in Civil and Environmental Engineering consists
of the three essential divisions of research and practice: Construction
& Structural Engineering division, Environmental Control Engineering
division and Environmental Planning division.
The Main research areas of those divisions are as follows: The development
of the new structural type in harmony with the environment and soft materials
of ecology, the creation of gthe living environmental consistent to the
natural environmenth and analysis of the complex social needs for development
of social capital to create gthe wealthy and comfortable society" , respectively.
Graduate Course in Mechanical Systems Engineering
In the Graduate Course of Mechanical Engineering, research and education
concentrate on the analysis and development of mechanic sand their applications
and effective use of energy. The main themes of this course are the mechanics
of materials, production engineering, mechanical component design, heat
engineering, and fluid dynamics.
Graduate Course in Computer Science and
Systems Engineering
The Graduate Course in Computer Science and Systems Engineering covers
the following four areas of research and education -- Database Systems
Engineering, Analytical Information Processing, Information Control Systems
and Information Systems for Production Engineering. They offer a broad
spectrum of disciplines in advanced computer science and systems engineering
as well as multidisciplinary research projects, such as network security
in distributed system, nonlinear dynamics and complex adaptive systems,
intelligent control systems, and intelligent systems for production engineering.
Doctoral Courses
Materials Science and Energy Engineering
The Materials Science and Energy Engineering division has two departments,
Functional Materials Science and Energy Engineering.
Department of Functional Materials Science
This department consists of three research groups as follows.
Physics of Electronic Materials: Our main research subjects are
optical and electrical investigations of deep defect levels in ULSI semiconductors
and structural instability of non-crystalline semiconductors.
Applied Chemistry of Organic and Inorganic Materials: Education and
research are carried out on synthesis, characterization and industrial
application of organic and inorganic materials having catalytic, extracting,
bioactive and other valuable functions.
Biotechnology: Education and research are carried out on production
of bio-and related synthetic materials, and on biological production and
application of functional materials.
Department of Energy Engineering
This department consists of three research groups as follows:
Science of High Energy Particles: Education and research programs
include interaction of high energy ions, particle beams and cosmic rays
with materials as well as conversion process of materials by exposition
of these high energy particles.
Quantum Energy Engineering: Education and research programs consist
of developments of new lasers, laser materials processing and plasma devices.
are carried out on the bases of quantum mechanics and quantum electronics.
Energy Conversion Engineering: Education and research programs are
carried out on synthesis of organic materials, developments of energy conversion
materials and characterization of energy conversion and transportation.
Systems Engineering
Systems Engineering Division has two departments, Production and
Environmental engineering, and Information Systems Engineering.
Department of Production and Environmental Engineering
The main purpose of this department lies in the following areas of
research and education: environmental engineering, structure and construction
engineering, design and production engineering and energy engineering.
Department of Information Systems Engineering
This deparment covers the following areas of research and education.
Urban Systems Engineering treats issues concerned with the planning and
design of better urban systems, including better social welfare and health
and the mitigation
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