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1
Element Strategy Initiative Advisory Council (ESIAC) 2019、December 13 (Friday), 2019 @ Yokohama
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Wind farm
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1998~2013
2014
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Nano-beam branch
RIKEN
Micro-beambranch
Optics Hutch Scanning soft XMCDapparatus
Nano-beamScanner unit
Photon and Quantum Basic Research Coordinated Development Program
Grand-in Aid for Scientific Research on Innovative Area
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Y. Kotani et al., J. Synchrotron Rad. 25, 1444 (2018).
≈ 10 mm(@ E = 1000 eV)
= 12.0 m
Optics for a <100 nm soft X-ray beam
11 axes piezo-drives scanner unit
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Helicity minusHelicity plus
x-rays
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Sampling time=30 ms
~ 567 min 85 min 20 min
10 min 5 min
XMCD mapping using the quick scan has been developed instead of the step scan mode.
60 times faster
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x-rays
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M. Suzuki et al., APEX 11, 036601 (2018).
Nd-Fe-B sintered magnet
Gd-Fe-Co thick disk
2 µm
xyz
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Development of Soft X-ray MCD microscope
Y. Kotani et al., J. Synchrotron Rad. 25, 1444 (2018).
D. Billington et al., Phys. Rev. Mater.(2018), in print
Vivid & high resolution magnetic imaging
K. Miyazawa et al., Acta. Materialia162, 1 (2019).
T. Nakamura et al., Appl. Phys. Lett. 105, 202404 (2014).
GB magnetism using Soft XMCD
N. Tsuji et al., Acta Materialia 154, 25 (2018).
Secondaryphases
H. Okazaki et al., Acta Materialia, 181, 530 (2019)
Electron Density
M. Suzuki et al., Acta Materialia 106, 155 (2016).
Magnetic domain Imagingusing Hard X-ray MCD
3D Magnetic CTM. Suzuki et al., In preparation
More than 5 companiesuse the technique.
k you for your attention
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以下、参考
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Scanning X-ray magnetic CT setup
Focused beam size:130(H)×140(V) nm2
X-ray energy:7.247 keV (Gd L3)
Polarization modulation at 37 Hz with diamond X-ray phase plateOn the Fly Scan + Lock-in detection
SPring-8 BL39XU
Y
X
Z
θ
Ion chamber (I0)
Si photodiode (I)
Diamond X-ray phase plate
KB mirror
Sample on SiNmembrane
Si photodiodeSample
X-Z translation
Rotation stage
X-rays
M. Suzuki et al., Appl. Phys. Express 11, 036601 (2018).
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Methods Specimen Magnetic fields Resolution Lab./ Facility
Kerrmicroscopy
Flat surface ~ 25 T 200 - 1,000 nm Labo.
MFM Relatively flat surface < 1 T 10 - 50 nm Labo.
Lorenz TEM Transmittablethin film (~100 nm) < 1 T ~1 nm Labo.
Spin SEM Surface(irregular surface) < 0.1 T ~10 nm Labo.
STXM, TXM Transmittablethin film (~100 nm) Currently, < 0.5 T 10 - 100 nm SR X-rays
PEEM Surface < 0.05 T 20 - 100 nm SR X-rays
SXM by TEY mode
(This work)
Surface(irregular surface) 8 T 50 - 100 nm SR X-rays
Only this work makes possible to observe the magnetic domain structurein the irregular surface under high magnetic fields.