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論文

Attempt to measure magnetic hyperfine fields in metallic thin wires under spin Hall conditions using synchrotron-radiation M$"o$ssbauer spectroscopy

壬生 攻*; 三井 隆也; 田中 雅章*; 増田 亮*; 北尾 真司*; 小林 康浩*; 依田 芳卓*; 瀬戸 誠*

Journal of Applied Physics, 117(17), p.17E126_1 - 17E126_4, 2015/05

https://doi.org/10.1063/1.4917189
 被引用回数:2 パーセンタイル:9.14(Physics, Applied)

Measurement of the magnetic hyperfine fields in metallic thin wires under spin Hall conditions was attempted using the emerging technique synchrotron radiation M$"o$ssbauer spectroscopy. A M$"o$ssbauer probe layer of $$^{57}$$Fe(0.2 nm), $$^{57}$$Fe(0.6 nm), or $$^{119}$$Sn(0.6 nm) was embedded as an electron spin detector near the surfaces of V, Au, Pt, and $$^{56}$$Fe wires. The magnitudes of the magnetic hyperfine fields at the $$^{57}$$Fe and $$^{119}$$Sn nuclear sites that could be enhanced by nonequilibrium conduction electron spin polarization were measured both without and with the application of an electric current along the wire. Changes in the M$"o$ssbauer spectra were not clearly observed, indicating that the magnetic hyperfine field induced by nonequilibrium spin polarization is smaller than the detection limit at least for the measured systems and conditions.

論文

$$^{57}$$Fe polarization dependent synchrotron M$"o$ssbauer spectroscopy using a diamond phase plate and an iron borate nuclear Bragg monochromator

三井 隆也; 今井 康彦*; 増田 亮*; 瀬戸 誠*; 壬生 攻*

Journal of Synchrotron Radiation, 22(2), p.427 - 435, 2015/03

https://doi.org/10.1107/S1600577514028306
 被引用回数:11 パーセンタイル:49.69(Instruments & Instrumentation)

Energy domain $$^{57}$$Fe polarization dependent synchrotron radiation M$"o$ssbauer spectroscopy was developed by using a diamond X-ray phase plate and an iron borate nuclear Bragg monochromator. The former controls the polarization of the incident synchrotron radiation X-rays and the latter filters the $$^{57}$$Fe M$"o$ssbauer radiation with a narrow bandwidth of 15 neV from the broadband synchrotron radiation. The developed nuclear diffraction optics allowed $$^{57}$$Fe M$"o$ssbauer studies to beperformed with various polarization states. In this paper, the spectrometer system, beam characterization, performance test experiments and a grazing incidence M$"o$ssbauer measurement of an isotope enriched iron thin film are described.

論文

High-pressure radiative conductivity of dense silicate glasses with potential implications for dark magmas

村上 元彦*; Goncharov, A. F.*; 平尾 直久*; 増田 亮*; 三井 隆也; Thomas, S. M.*; Bina, C. R.*

Nature Communications (Internet), 5, p.5428_1 - 5428_6, 2014/11

https://doi.org/10.1038/ncomms6428
 被引用回数:19 パーセンタイル:51.61(Multidisciplinary Sciences)

The possible presence of dense magmas at Earth's core mantle boundary is expected to substantially affect the dynamics and thermal evolution of Earth's interior. However, the thermal transport properties of silicate melts under relevant high-pressure conditions are poorly understood. Here we report in situ high pressure optical absorption and synchrotron M$"o$ssbauer spectroscopic measurements of iron enriched dense silicate glasses, as laboratory analogues for dense magmas, up to pressures of 85 GPa. Our results reveal a significant increase in absorption coefficients, by almost one order of magnitude with increasing pressure to $$sim$$50 GPa, most likely owing to gradual changes in electronic structure. This suggests that the radiative thermal conductivity of dense silicate melts may decrease with pressure and so may be significantly smaller than previously expected under core-mantle boundary conditions. Such dark magmas heterogeneously distributed in the lower mantle would result in significant lateral heterogeneity of heat flux through the core mantle boundary.

論文

Development of $$^{125}$$Te synchrotron-radiation-based M$"o$ssbauer spectroscopy

黒葛 真行*; 北尾 真司*; 小林 康浩*; 齋藤 真器名*; 増田 亮*; 三井 隆也; 依田 芳卓*; 瀬戸 誠*

Hyperfine Interactions, 226(1), p.687 - 691, 2014/04

https://doi.org/10.1007/s10751-013-0995-2
 被引用回数:3 パーセンタイル:69.82(Physics, Atomic, Molecular & Chemical)

The M$"o$ssbauer spectra of the 35.49 keV excited state of $$^{125}$$Te were observed in the energy domain using synchrotron radiation for the first time. The obtained isomer shifts and Debye temperature agree with previous experiments. These results show that this method will be applicable to various compounds.

論文

$$^{125}$$Te synchrotron-radiation-based M$"o$ssbauer spectroscopy of Fe$$_{1.1}$$Te and FeTe$$_{0.5}$$Se

黒葛 真行*; 北尾 真司*; 小林 康浩*; 齋藤 真器名*; 増田 亮*; 三井 隆也; 依田 芳卓*; 瀬戸 誠*

Journal of the Physical Society of Japan, 83(4), p.044708_1 - 044708_4, 2014/04

https://doi.org/10.7566/JPSJ.83.044708
 被引用回数:2 パーセンタイル:20.41(Physics, Multidisciplinary)

The $$^{125}$$Te M$"o$ssbauer spectra of Fe$$_{1.1}$$Te and FeTe$$_{0.5}$$Se$$_{0.5}$$ were measured using synchrotron-radiation-based M$"o$ssbauer spectroscopy. The hyper fine field of Te in the antiferromagnetic phase of Fe$$_{1.1}$$Te was evaluated to be 4(1) T at 20 K, and this hyper fine field is considered to be due to the transferred hyper fine field from Fe magnetic moments. The evaluated hyper fine field was comparatively large, suggesting the strong correlation with the magnetic moment of Fe that forms double stripe type magnetic structure. For the superconductor FeTe$$_{0.5}$$Se$$_{0.5}$$, no marked change in its M$"o$ssbauer parameters was observed below or above the superconducting transition temperature, indicating that the change in the electronic state of Te was small.

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