Department of Nuclear Engineering, Kyoto University
Welcome to Nuclear Engineering Home Page
Japanese version is here.
Dear Alumni and Alumnae:
99/7/15
Research Groups
-
Phenomenological Studies of Particle Physics.
Particle Physics and Cosmology.
Quantum Field Theories and their Applications.
Developments and Applications of Quantum Methods.
( contact by
e-mail )
- Nuclear Reaction and Nuclear Structure.
Applied Nuclear Reaction using with Ion Accelerator.
Development of Radiation Detector.
Application of Radiation Detector.
- Trace Elements Analysis with Ion Accelerator.
In-Situ Measurement using High Energy Ion-Beam.
Measurements of Environmental Radioactivity.
( contact by
e-mail )
-
Quantum and Beam Science (Atomic Physics, Accelerator Physics,
Advanced Materials Science using Ion Beam Technology).
Atomic Processes in Nuclear Fusion Plasmas.
Cluster Formation in Swift Ion-Solid Interaction.
Fragmentation and Stability of C60 using Atomic Collisions.
Coherent X-ray Emission from Relativistic Electron Beam.
Atomic Rearrangement of Solid Materials by Ion Implantation.
( contact by
e-mail )
- Theory of Reactor
Physics.
Solution of Multi-Group Neutron Diffusion and Transport Equations.
Critical Experiments and their Analysis.
Cold Neutron Scattering in Quantum and Molecular Liquids.
Production and Storage of Ultra-Cold Neutrons in Superfluid 4He.
( contact
by e-mail )
- Neutron Reactions
and their Applications.
Neutron Radiation Effects on Semiconductors.
Developments and Applications of Radiation Detectors.
Interactions between High Energy Radiations and Materials.
Cross Sections and Transportation of High Energy Neutrons.
( contact
by e-mail )
-
Heat Transfer and Fluid Dynamics in Nuclear Reactors.
Physics and Engineering of Multiphase Flow.
Efficient Utilization of Energy and Heat Transfer Enhancement.
Application of Accelerator and Laser on Heat Transfer Science.
Advancement of Fluid Functions and Intelligent Fluid Engineering.
( contact by e-mail
)
- Plasma-Wall Interaction in Fusion Devices.
Disposal of High Level Radioactive Waste.
Secondary Hydriding of Reactor Fuel Claddings.
Ion Beam Analysis for Advanced Functional Materials.
- Utilization of Research Reactor (Neutron
Irradiation Field Study, etc.).
Nuclear Data Measurements with an Electron Linear Accelerator.
Research Reactor Safety (Seismic Study, etc.).
( contact by e-mail
)
-
Neutron Scattering Experiments.
Development of Neutron Optical Devices and Instruments.
Neutron Interference Experiments using Multilayer Neutron Interferometers
and the Neutron Spin Echo Instrument.
Structural Analysis of the Condensed Matter using Neutron Diffratometers
and the Reflectometer.
( contact by e-mail
)
-
Process Chemistry for Nuclear Fuel Cycle.
Radiochemistry of Transuranium Elements.
Fusion Reactor Fuel and Related Materials.
Analysis of Environmental and Life Materials.
( contact by e-mail
)
- Studies on Radiation Science of Condensed Matters
and on Physical Technology of Neutron Capture Therapy include
following Topics:
Characteristics of Radiation-Induced Primary Species in Organic
Solids at Very Low Temperatures.
Physicochemical Properties of Compounds Functionalised by Radiations.
Development of Irradiation Facilities for Neutron Capture Therapy.
Development of On-Line Measurements of Absorbed Dose during Neutron
Irradiation.
( contact by e-mail )
-
Department Office
Department Library
-
Winter Snow Scenary around
Department of Nuclear Engineeringi98,504Bytes)
