Table of research areas
|
Main classification
|
Sub-classification
|
Examples of keywords
|
| ●Accelerator physics, beamline engineering | ||
| Accelerator physics | Linear accelerators | Electron guns, High-frequency acceleration, Electromagnets, Vacuum technology, Diagnostic technology |
| Circular accelerators | Orbit analysis, High-frequency acceleration, Electromagnets, Vacuum technology, Diagnostic technology | |
| Accelerator | Control equipment, Networks, Control software | |
| Next- generation light sources Radiation sources | Next-generation light source accelerators, Free electron lasers | |
| Radiation sources Laser electron sources | Gamma radiation sources, Positron sources, Neutron sources | |
| Others Synchrotron light sources | Inverse Compton scattering | |
| Others | ||
| Beamline engineering | Synchrotron light source | Insertion light sources, Deflection magnet light sources |
| Beamline engineering | Front end (core channel), Transport channel equipment, Vacuum engineering, Thermal stress analysis, Beam diagnosis | |
| Optics | Optical instruments (spectroscopy, polarization, focusing), Optical elements, Development of measurement methods | |
| Detectors | Gas detectors, Solid detectors, High-speed time division measurement | |
| Control systems | Hardware, Software, Interlock | |
| Radiation physics | X-ray standard field, Shielding calculation | |
| Beamline diagnosis | X-ray intensity monitoring, Beam position monitoring /td> | |
| Others | ||
| Elementary particles , Nuclear science |
Particle physics | Elementary particles, Cosmic radiation, High-energy physics, Space physics |
| Nuclear science | Nuclear physics | |
| Others | ||
| ●Research using synchrotron radiation | ||
| Life science | Structural biology (crystals) | Structure and function of protein crystals, Enzymatic reactions |
| Life science Structural biology (crystals) Structural biology (hard-condensed matter) | Muscles, 2D membranes, Bone cells, Protein solutions, Structures/functions | |
| Biophysics | Biomembranes/receptors/channels, Folding, Single-molecular observation | |
| Analyses of medicinal effects | Medical, Structures of protein complexes, Medical molecular design, Genome pharmaceuticals | |
| Cell biology | Cell structure, Cell functions | |
| Radiobiology | Radiation effect at cell and DNA levels | |
| Biological imaging | Imaging, Tomography, X-ray CT/td> | |
| Others | ||
| Medical applications | Bioimaging | Imaging, Tomography, X-ray CT |
| Radiodiagnosis | Imaging for medical diagnosis, Microstructures of affected areas | |
| Radiation therapy (Radiotherapy) | Radiation effects | |
| Medical materials | Medical materials, Dental materials, Biofunctional materials | |
| Others | ||
| Materials science ・ and engineering |
Structural properties | Crystal structure, Electron density distribution |
| Structural phase transitions | Structural phase transitions, Magnetic and electronic phase transitions, Structural fluctuation, Time-resolved structural analysis | |
| Nanostructured materials | Quantum nanostructures, Nanomaterials, Mesoscopic systems, Molecular structures, Gas absorption | |
| Surface and interface | Surface and interface structures, Surface modulation structures, Thin films, Multilayered structures, Surfactant effect, Surface roughness, Crystal growth process, Surface melting, New surface material layers | |
| Random material structures | Amorphous materials, Liquids/melts, Glasses, Gases, Supercritical materials | |
| Soft material properties | Soft materials, Polymers, Organic thin films, Liquid crystals | |
| Electronic structures | Electronic structures, Band structures | |
| Semiconductor properties | Semiconductors, Molecular solids, Organic semiconductors, Electronic device | |
| Optical properties (Solid-state photophysics) | Ionic crystals | |
| Dielectric properties | Dielectrics, Structural phase transitions | |
| Metal properties | Metals, Quasicrystals, Imaging | |
| Superconducting properties | Superconductors, Organic superconductors | |
| Magnetic properties | Magnetic structures, Magnetic bodies, Magnetic multilayered films, Structural phase transitions induced by magnetic field, Organic magnetic bodies | |
| Strongly correlated electronic materials | ||
| Gratings/atomic dynamics | Phonon properties, Elastic waves, Atomic diffusion | |
| Nuclear properties | Hyperfine interactions, Nuclear resonance, Mössbauer effects, Nuclear excitation | |
| Others | ||
| Chemistry | Atoms/molecules | Spectroscopy of atoms/molecules/clusters, Ion desorption, Atomic process of multiply charged ions, Chemical reactions excited by synchrotron radiation, Excited molecular structures |
| Inorganic chemistry | Inorganic solids, Metal complexes | |
| Organic chemistry | Organic solids, Organic photochemistry | |
| Macromolecular chemistry | Macromolecular structures, Fibers | |
| Surface and interface chemistry | Surface and interface chemistry | |
| Electrochemistry | Electrochemical reactions, Electrode reactions, Electrode materials, Electrodeposition | |
| Chemical analysis | Trace element analysis, State analysis | |
| Trace element analysis, State analysis | Chemical bonds, Lipids, Structures/functions | |
| Infrared materials science | Molecular vibration, Infrared microspectroscopy, Magneto-optics | |
| Irradiation effects | Inner shell excitation reactions, Development of new materials, Material modification, X-ray CVD | |
| Others | ||
| Earth and planetary science | Earth science | Solid earth science, Materials of crust/mantle/core, Geology |
| Rocks/mineralogy | Earth and planetary materials, Magma, Mineral resources | |
| High-temperature/high-pressure properties | Viscosity, speed of sound | |
| Others | ||
| Environmental science | Environmental analytical science | Trace chemical analysis, Mapping |
| Environmental materials | Aerosols, Environment pollutants | |
| Biomaterials Others | Biological trace materials analysis | |
| Others | ||
| Industrial Applications | Electronics | Electronic devices, Quantum devices, Optical elements, Storage elements, Display elements, Piezoelectric elements, Device evaluation |
| Semiconductor/electronic materials | Semiconductor materials, Electronic materials, Thin films for devices, Phosphors | |
| Magnetic materials | Magnetic materials, Magnetic multilayered films, Spin electronics, Magnetic devices | |
| Superconducting material | Superconducting materials, Superconducting devices | |
| Metal/structural materials | Metals, Structural functional materials, Machine components, Architectural materials, Lattice distortion, Residual stress, Corrosion, Destruction, Imaging | |
| Inorganic materials | Inorganic materials, Ceramics, Glasses, Gas absorption materials, Microparticles, Colloids | |
| Organic materials Catalytic chemistry | Polymers, Organic materials, Liquid crystals, Rubber, Fibers, Films, Imaging Industrial catalysts, Catalysis, Surface chemical reactions | |
| Electrochemistry | Electrochemical reactions, Electrode reactions, Electrode materials | |
| Environmental materials | Environmental analysis, Pollution treatment, Environmental catalysts, Recycling, Technology for reducing environmental impact | |
| Energy/resources | Fuel cells, Solar cells, Devices | |
| Energy/resources | Fuel cells, Solar cells, Devices | |
| Pharmacy | rotein crystals, Low-molecular-weight crystals for medicine, Chemicals | |
| Food/daily products | Food, Cosmetics, Daily commodities | |
| Fine manufacturing, Irradiation effects | Lithography, LIGA, Electrodeposition, X-ray irradiation reactions | |
| Others | ||
| Others | Archaeology | |
| Forensic science | Scientific crime detection | |
| control | ||
| Others | ||