SUZUKI, Chihiro

Effective minor radius (reff) and local magnetic field (B_r: radial magnetic field, B_z: axial magnetic field, B_phi: circumferential or azimuthal magnetic field) in 3D geometry.

Effective minor radius (reff) and local magnetic field (B_r: radial magnetic field, B_z: axia magnetic field, B_phi: circumferential or azimuthal magnetic field) at horizontally elongated cross section.

Effective minor radius (reff) and local magnetic field (B_r: radial magnetic field, B_z: axia magnetic field, B_phi: circumferential or azimuthal magnetic field) at horizontally elongated cross section.

Effective minor radius (reff) and local magnetic field (B_r: radial magnetic field, B_z: axia magnetic field, B_phi: circumferential or azimuthal magnetic field) at horizontally elongated cross section.

Effective minor radius (reff) and local magnetic field (B_r: radial magnetic field, B_z: axia magnetic field, B_phi: circumferential or azimuthal magnetic field) at horizontally elongated cross section.

Effective minor radius (reff) and local magnetic field (B_r: radial magnetic field, B_z: axia magnetic field, B_phi: circumferential or azimuthal magnetic field) at horizontally elongated cross section.

Effective minor radius (reff) and local magnetic field (B_r: radial magnetic field, B_z: axia magnetic field, B_phi: circumferential or azimuthal magnetic field) at midplane.

Effective minor radius (reff) and local magnetic field (B_r: radial magnetic field, B_z: axial magnetic field, B_phi: circumferential or azimuthal magnetic field) at vertically elongated cross section.

20-channel Absolute eXtreme Ultra-Violet (AXUV) detector (photodiode) arrays installed inside the vacuum vessel of LHD to monitor MHD fluctuations of AXUV emissions from edge plasma region

20-channel Absolute eXtreme Ultra-Violet (AXUV) detector (photodiode) arrays installed inside the vacuum vessel of LHD to monitor MHD fluctuations of AXUV emissions from edge plasma region

20-channel Absolute eXtreme Ultra-Violet (AXUV) detector (photodiode) arrays installed inside the vacuum vessel of LHD to monitor MHD fluctuations of AXUV emissions from edge plasma region

20-channel Absolute eXtreme Ultra-Violet (AXUV) detector (photodiode) arrays installed inside the vacuum vessel of LHD to monitor MHD fluctuations of AXUV emissions from edge plasma region

20-channel Absolute eXtreme Ultra-Violet (AXUV) detector (photodiode) arrays installed inside the vacuum vessel of LHD to monitor MHD fluctuations of AXUV emissions from edge plasma region

20-channel Absolute eXtreme Ultra-Violet (AXUV) detector (photodiode) arrays installed inside the vacuum vessel of LHD to monitor MHD fluctuations of AXUV emissions from edge plasma region

20-channel Absolute eXtreme Ultra-Violet (AXUV) detector (photodiode) arrays installed inside the vacuum vessel of LHD to monitor MHD fluctuations of AXUV emissions from edge plasma region

20-channel Absolute eXtreme Ultra-Violet (AXUV) detector (photodiode) arrays installed inside the vacuum vessel of LHD to monitor MHD fluctuations of AXUV emissions from edge plasma region

20-channel Absolute eXtreme Ultra-Violet (AXUV) detector (photodiode) arrays installed inside the vacuum vessel of LHD to monitor MHD fluctuations of AXUV emissions from edge plasma region

Tracer-Encapsulated Solid Pellet(TESPEL) is a double-layered impurity pellet, which basically consists of polystyrene polymer (-CH(C6H5)CH2-) as an outer shell and tracer particles as a core. TESPEL can be utilized for various physics-orien…

Tracer-Encapsulated Solid Pellet(TESPEL) is a double-layered impurity pellet, which basically consists of polystyrene polymer (-CH(C6H5)CH2-) as an outer shell and tracer particles as a core. TESPEL can be utilized for various physics-orien…

Tracer-Encapsulated Solid Pellet(TESPEL) is a double-layered impurity pellet, which basically consists of polystyrene polymer (-CH(C6H5)CH2-) as an outer shell and tracer particles as a core. TESPEL can be utilized for various physics-orien…

Tracer-Encapsulated Solid Pellet(TESPEL) is a double-layered impurity pellet, which basically consists of polystyrene polymer (-CH(C6H5)CH2-) as an outer shell and tracer particles as a core. TESPEL can be utilized for various physics-orien…

Tracer-Encapsulated Solid Pellet(TESPEL) is a double-layered impurity pellet, which basically consists of polystyrene polymer (-CH(C6H5)CH2-) as an outer shell and tracer particles as a core. TESPEL can be utilized for various physics-orien…