Facilities and Major Instruments

Facilities

Facilities and Major Instruments

Facilities available for use in GIMRT program.

RDG: Research Divisions and Groups

For details, refer to the research division.

IRCNMS (Oarai) : International Research Center for Nuclear Materials

Link to ‘Facility page’ of IRCNMS (Oarai) website.

CRDAM: Cooperative Research and Development Center for Advanced Materials

CRDAM Facilities and Major Instruments for Collaborative Research FY2019 (PDF:1MB)

HFLSM: High Field Laboratory for Superconducting Materials

No Equipment name Purpose of Use Note Notices
1 31 T Hybrid Magnet 32 mm RT bore
2 28 T Hybrid Magnet 32 mm RT bore
3 25 T Cryogen-Free Hybrid Magnet 52 mm RT bore
4 28 T Cryogen-Free Hybrid Magnet 32 mm RT bore
6 12T Superconducting Magnet 360 mm RT bore
7 9 T Cryogen Free Superconducting Magnet 360 mm RT bore
9 25 T Cryogen Free Superconducting Magnet 52 mm RT bore
10 20 T Cryogen Free Superconducting Magnet 52 mm RT bore
11 15 T Cryogen Free Superconducting Magnet 52 mm RT bore
12 10 T Cryogen Free Superconducting Magnet 100 mm RT bore, rotatable
13 8 T Cryogen Free Superconducting Magnet 220 mm RT bore
14 6 T Cryogen Free Superconducting Magnet 220 mm RT bore
15 5 T Cryogen Free Superconducting Split Magnet
16 20 T Superconducting Magnet High Himogeniety 52 mm LT bore
17 18 T Superconducting Magnet 52 mm LT bore
18 15 T Superconducting Magnet 52 mm LT bore

CCMS: Center for Computational Materials Science

No Equipment name Purpose of Use Note Notices
1 Large-scale parallel computing server CPU-based large-scale parallel computation Cray XC50-LC: 320 nodes
2 Accelerator server GPU-based massively parallel computation Cray CS-Storm 500GT: 29 nodes
3 Parallel computing & Informatics server Analysis of big data and use as virtual machine HPE ProLiant DL360 Gen10: 29 nodes
4 Visualization server Visualizatioin of calculation results HPE ProLiant DL380 Gen10: 5 nodes

CN: Center of Neutron Science for Advanced Materials

No Equipment name Purpose of Use Note Notices
1 Tohoku University Polarization Analysis Neutron Spectrometer (TOPAN)
(JRR-3)*
elastic/inelastic neutron scattering experiments (triple axis mode), total scattering experiments (two axis mode), polarization analysis experiments (flipping ratio measurements) Monochromator: PG(002) / Heusler(111); Ei=5~100meV
Analyzer: PG(002) / Heusler(111)
Collimator: 1st(O, 30', 15'), 2nd-3rd(O, 100', 60', 30', 15', 10'), 4th(O, 100', 60', 30', 15')
filter: PG, sapphire
beam size: 40mm-W x 80mm-H just below 2nd col.
detector: 3He-gas (2inch x 100mm-L)
under commissioning
2 Advanced KINKEN triple-axis neutron spectrometer (AKANE)
(JRR-3)*
elastic/inelastic neutron scattering experiments (triple axis mode), diffraction experiments (two axis mode) Monochromator: V-focused Ge (311)/(511), mosaic=10'~15'
Analyzer: PG(002)
Collimator: 1st(guide ~20'), 2nd-4th(15', 30', 60', 120', blank)
filter: PG
beam size: 20mm-W x 50mm-H at sample position
detector: 3He-gas (25mm-diameter), option (3D PSD bank)
SE: 4He-CCR
3 KINKEN powder diffractometer for high efficiency and high resolution measurements
(JRR-3)*
neutron powder diffraction experiments Monochromator: V-focused Ge(331) 200mm-H, mosaic=10', 2th=116deg.(2.202A)
Collimator: 1st=12'(fixed), 2nd=open, 3rd=18'~24'
angle range: 2 < 2th < 160deg.
Distance: M-S=2500mm, S-D=1350mm
detector: 3He x 150 tubes
SE: 4He-CCR, high temperature refrigerator (max 700 K)
(fact sheet)
www.issp.u-tokyo.ac.jp/labs/neutron/image2/pdf/gaiyou/gaiyou_T1-3.pdf
4 HERMES-E
(JRR-3)*
neutron diffraction experiments Monochromator: Ge(533) (lambda=0.863A)
SE: 4He-CCR
under commissioning
5 Polarized Neutron Spectrometer (POLANO) elastic/inelastic neutron scattering experiments with pulsed neutron beam, polarization neutron experiments Fermi chopper (Ei=1~500meV, typical energy resolution=4% at dE=0)
T0 chopper: open, 25, 50Hz operation
detector: 3He-PSD
detector range: -30 < 2th_horizontal < 130deg., -29.4 < 2th_vertical < 29.4deg.
Beam size: 20mm x 20mm at sample position
SE: 4He-CCR
Unpolarized neutron scattering experiments are now available, while polarization analysis experiments are under commissioning.
*The research reactor JRR-3 plans to resume operations in October 2020. The instruments will be opened for users after commissioning.