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論文

$$mu$$SR studies on copper minerals

藤原 理賀; 岡部 博孝*; 幸田 章宏*

Interactions (Internet), 245(1), p.13_1 - 13_6, 2024/12

量子状態を実験的に観測することは難しい。さらに、エキゾチックな量子状態が実現すると予測されている格子系の中には、理想的なモデル物質が見つかっていない系も存在する。銅鉱物の中には、未研究の低次元量子磁性体がまだまだ多く存在し、その数は年々増加している。我々は、銅鉱物が発見された自然環境を模倣することで7種類の銅鉱物の人工合成に成功し、さらにその量子状態を報告した。パルスミュオンの特性は、人工銅鉱物のスピン状態の調査に大変適している。その有用性を、fedotoviteの$$mu$$SR測定の結果を示しながら、紹介する。

論文

Quantitative analysis of microstructure evolution, stress partitioning and thermodynamics in the dynamic transformation of Fe-14Ni alloy

Li, L.*; 宮本 吾郎*; Zhang, Y.*; Li, M.*; 諸岡 聡; 及川 勝成*; 友田 陽*; 古原 忠*

Journal of Materials Science & Technology, 184, p.221 - 234, 2024/06

Dynamic transformation (DT) of austenite ($$gamma$$) to ferrite ($$alpha$$) in the hot deformation of various carbon steels was widely investigated. However, the nature of DT remains unclear due to the lack of quantitative analysis of stress partitioning between two phases and the uncertainty of local distribution of substitutional elements at the interface in multi-component carbon steels used in the previous studies. Therefore, in the present study, a binary Fe-Ni alloy with $$alpha$$+$$gamma$$ duplex microstructure in equilibrium was prepared and isothermally compressed in $$alpha$$+$$gamma$$ two-phase region to achieve quantitative analysis of microstructure evolution, stress partitioning and thermodynamics during DT. $$gamma$$ to $$alpha$$ DT during isothermal compression and $$alpha$$ to $$gamma$$ reverse transformation on isothermal annealing under unloaded condition after deformation were accompanied by Ni partitioning. The lattice strains during thermomechanical processing were obtained via in-situ neutron diffraction measurement, based on which the stress partitioning behavior between $$gamma$$ and $$alpha$$ was discussed by using the generalized Hooke's law. A thermodynamic framework for the isothermal deformation in solids was established based on the basic laws of thermodynamics, and it was shown that the total Helmholtz free energy change in the deformable material during the isothermal process should be smaller than the work done to the deformable material. Under the present thermodynamic framework, the microstructure evolution in the isothermal compression of Fe-14Ni alloy was well explained by considering the changes in chemical free energy, plastic and elastic energies and the work done to the material. In addition, the stabilization of the soft $$alpha$$ phase in Fe-14Ni alloy by deformation was rationalized since the $$gamma$$ to $$alpha$$ transformation decreased the total Helmholtz free energy by decreasing the elastic and dislocation energies.

論文

Inelastic neutron scattering study of magnon excitation by ultrasound injection in yttrium iron garnet

社本 真一; 赤津 光洋*; Chang, L.-J.*; 根本 祐一*; 家田 淳一

Applied Physics Letters, 124(11), p.112402_1 - 112402_5, 2024/03

Y$$_3$$Fe$$_5$$O$$_{12}$$における超音波注入によるマグノン励起を非弾性中性子散乱によって研究した。その結果、縦波と横波の両方で超音波注入によりマグノン励起の非弾性中性子散乱強度が増強されることがわかった。

論文

Crystal-liquid duality driven ultralow two-channel thermal conductivity in $$alpha$$-MgAgSb

Li, J.*; Li, X.*; Zhang, Y.*; Zhu, J.*; Zhao, E.*; 古府 麻衣子; 中島 健次; Avdeev, M.*; Liu, P.-F.*; Sui, J.*; et al.

Applied Physics Reviews (Internet), 11(1), p.011406_1 - 011406_8, 2024/03

The desire for intrinsically low lattice thermal conductivity ($$kappa_L$$) in thermoelectrics motivates numerous efforts on understanding the microscopic mechanisms of heat transport in solids. Here, based on theoretical calculations, we demonstrate that $$alpha$$-MgAgSb hosts low-energy localized phonon bands and avoided crossing of the rattler modes, which coincides with the inelastic neutron scattering result. Using the two-channel lattice dynamical approach, we find, besides the conventional contribution ($$sim$$70% at 300 K) from particlelike phonons propagating, the coherence contribution dominated by the wavelike tunneling of phonons accounts for $$sim$$30% of total $$kappa_L$$ at 300 K. By considering dual contributions, our calculated room-temperature $$kappa_L$$ of 0.64 Wm$$^{-1}$$K$$^{-1}$$ well agrees with the experimental value of 0.63 Wm$$^{-1}$$K$$^{-1}$$. More importantly, our computations give a nonstandard $$kappa_L propto T^{-0.61}$$ dependence, perfectly explaining the abnormal temperature-trend of $$sim T^{-0.57}$$ in experiment for $$alpha$$-MgAgSb. By molecular dynamics simulation, we reveal that the structure simultaneously has soft crystalline sublattices with the metavalent bonding and fluctuating liquid-like sublattices with thermally induced large amplitude vibrations. These diverse forms of chemical bonding arouse mixed part-crystal part-liquid state, scatter strongly heat-carrying phonons, and finally produce extremely low $$kappa_L$$. The fundamental research from this study will accelerate the design of ultralow-$$kappa_L$$ materials for energy-conversion applications.

論文

Nanocellulose hydrogels formed via crystalline transformation from cellulose I to II and subsequent freeze cross-linking reaction

関根 由莉奈; 南川 卓也; 廣井 孝介; 大場 洋次郎*; 永川 栄泰*; 杉田 剛; 柴山 由樹; 深澤 倫子*

Carbohydrate Polymers, 327, p.121538_1 - 121538_11, 2024/03

セルロースの結晶転移とその後の凍結架橋反応によってナノセルロース(NC)から形成された、無毒で強靱なNCゲルを開発した。低濃度のNaOHの使用と凍結を併用すると、凍結濃縮によりセルロースIからIIへのNCの結晶相転移が誘導されることを見出した。結晶相転移後、凍結濃縮層(FCL)内のNCとCA間の架橋により、強力なNCネットワーク構造が形成され、高い機械的強度を備えたNCハイドロゲルが形成した。凍結架橋したNCハイドロゲルは、NC-NaOHゾルと粉末吸着剤を混合することにより吸着剤を内部空間に容易に保持し、高い重金属除去効率を示した。この結果は、機能性材料の開発における化学修飾されていないセルロースの多用途性を示し、実用化の可能性を示すものである。

論文

Contrast dependence of scattering profiles for poly(ethylene glycol) in water; Investigation by small-angle neutron scattering with $$^{3}$$He spin filter and small-angle X-ray scattering

領木 研之*; 渡部 史*; 奥平 琢也*; 高橋 慎吾*; 奥 隆之; 廣井 孝介; 元川 竜平; 中村 洋*

Journal of Chemical Physics, 160(11), p.114907_1 - 114907_9, 2024/03

Small-angle neutron scattering (SANS) and small-angle X-ray scattering (SAXS) measurements were performed for deuterated and non-deuterated poly(ethylene glycol) (d-PEG and h-PEG, respectively) in D$$_{2}$$O and a D$$_{2}$$O/H$$_{2}$$O mixed solvent (Mix) to compere the scattering profiles. To determine the coherent scattering intensity of SANS, a $$^{3}$$He spin filter was utilized. The scattering profiles determined by SANS measurements were analyzed in terms of the wormlike chain model with touched beads along the contour of the chain. However, the SAXS profiles were not explained by the same model with uniform beads but with beads each consisting of a core and a shell having different electron densities. To explore the chain thickness determined form the SANS profile, scattering intensities for different combinations of d-PEG/D$$_{2}$$O, d-PEG/Mix, h-PEG/D$$_{2}$$O, and h-PEG/Mix were also examined.

論文

${it In situ}$ neutron diffraction revealing the achievement of excellent combination of strength and ductility in metastable austenitic steel by grain refinement

Mao, W.; Gong, W.; Harjo, S.; 諸岡 聡; Gao, S.*; 川崎 卓郎; 辻 伸泰*

Journal of Materials Science & Technology, 176, p.69 - 82, 2024/03

Fe-24Ni-0.3C(wt.%)準安定オーステナイト鋼の降伏応力は、平均結晶粒径が35$$mu$$m(粗粒[CG])から0.5$$mu$$m(超微細粒[UFG])に減少すると3.5倍(158$$rightarrow$$551MPa)に増加したが、引張伸びは大きく維持された(0.87$$rightarrow$$0.82)。結晶粒径が力学特性と変形機構に及ぼす影響を定量的に明らかにするため、室温での引張変形中にCGとUFG Fe-24Ni-0.3C鋼のその場中性子回折測定を行った。CGとUFG試料における塑性変形の初期段階は転位すべりによって支配され、変形後期には変形誘起マルテンサイト変態(DIMT)も生じた。結晶粒の微細化により、DIMTの開始応力が大きく増加し、ひずみに関するDIMTの速度が抑制されることがわかった。結果として、(i)結晶粒微細化によりオー ステナイトが安定化し、DIMTに対して最も安定な結晶粒である$$<$$111$$>$$//LD(LD:負荷方向)オーステナイト粒でのDIMTの開始が大幅に遅れた。その結果、UFG試験片の$$<$$111$$>$$//LDオーステナイト粒のほとんどはマルテンサイトに変態しなかった。(ii)結晶粒の微細化は、マルテンサイト変態の自己促進効果も抑制した。それにもかかわらず、UFG試験片の変態速度が低いDIMTは、CG試験片のより応力を増加させるのに効率がよく、変形中に均一な変形を維持するのに適していた。以上の現象は、UFG準安定オーステナイト鋼の優れた強度と延性の両立に相互に寄与している。

論文

Stress measurement of stainless steel piping welds by complementary use of high-energy synchrotron X-rays and neutrons

三浦 靖史*; 鈴木 賢治*; 諸岡 聡; 菖蒲 敬久

Quantum Beam Science (Internet), 8(1), p.1_1 - 1_14, 2024/03

Probabilistic fracture mechanics (PFM) is expected as a reasonable structural integrity assessment method for nuclear components such as piping, whose main degradation phenomenon is stress corrosion cracking (SCC). Some input parameters are necessary for PFM analysis, and welding residual stress is one of the most important parameters because welding residual stress affects SCC initiation and propagation. Recently, a double exposure method (DEM) with synchrotron X-ray has been proposed, and the method is an expected candidate for the measurement of welding residual stress with a high spatial resolution. In this paper, the DEM was applied to measure the residual stress of the plate specimen, which was cut from the welded pipe using electrical discharge machining, and detailed stress maps under a plane stress state were obtained. Furthermore, the residual stress distributions of the welded pipe under a triaxial stress state were also evaluated using neutron diffraction. From these results, the method for obtaining a detailed stress map of the welded pipe by the complementary use of high-energy synchrotron radiation X-rays and neutrons was proposed.

論文

Intercalative and non-intercalative photo-recharge using all-solid-state cells for solar energy conversion and storage

吉本 将隆*; 田村 和久; 渡邊 健太*; 清水 啓佑*; 堀澤 侑平*; Kobayashi, Takeshi*; Tsurita, Hanae*; 鈴木 耕太*; 菅野 了次*; 平山 雅章*

Sustainable Energy & Fuels (Internet), 8(6), p.1236 - 1244, 2024/03

1つのデバイスで、効率的に太陽光エネルギーを化学エネルギーに変換可能である光再充電システムは、太陽光を効率的に使用するのに重要である。光-(デ)インターカレーションは、光再充電システムの機能において重要な役割を果たしている。しかしながら、光-(デ)インターカレーション過程は、電解液の分解や電極材料の溶出などの副反応などのため、いまだ十分に理解されていない。本研究では、エピタキシャル成長させて作成したNbドープのアナターゼTiO$$_{2}$$薄膜から構成される薄膜全固体電池を用いて光応答Li$$^{+}$$デインターカレーションに成功したことを示す。光照射下、放電時は、Li$$^{+}$$のデインターカレーションが起き、引き続いて、可逆的にTiO$$_{2}$$にインターカレーションする。さらに、光照射下では、充電容量の一部はキャパシタと同様、インターカレーションに寄らない電子移動に基づいていることがわかった。

論文

Experimental visualization of water/ice phase distribution at cold start for practical-sized polymer electrolyte fuel cells

樋口 雄紀*; 吉宗 航*; 加藤 悟*; 日比 章五*; 瀬戸山 大吾*; 伊勢川 和久*; 松本 吉弘*; 林田 洋寿*; 野崎 洋*; 原田 雅史*; et al.

Communications Engineering (Internet), 3, p.33_1 - 33_7, 2024/02

The automotive industry aims to ensure the cold-start capability of polymer electrolyte fuel cells (PEFCs) for developing fuel cell electric vehicles that can be driven in cold climates. Water and ice behavior is a key factor in maintaining this capability. Previously reported methods for visualizing water and/or ice are limited to small-sized PEFCs ( $$<$$ 50 cm$$^{2}$$), while fuel cell electric vehicles are equipped with larger PEFCs. Here, we developed a system using a pulsed spallation neutron beam to visualize water distribution and identify water/ice phases in practical-sized PEFCs at a cold start. The results show direct evidence of a stepwise freezing behavior inside the PEFC. The produced water initially accumulated at the center of the PEFC and then froze, followed by PEFC shutdown as freezing progressed. This study can serve as a reference to guide the development of cold-start protocols, cell design, and materials for next-generation fuel cell electric vehicles.

論文

Neutron transmission CB-KID imager using samples placed at room temperature

石田 武和*; Vu, TheDang*; 宍戸 寛明*; 相澤 一也; 奥 隆之; 及川 健一; 原田 正英; 小嶋 健児*; 宮嶋 茂之*; 小山 富男*; et al.

Journal of Low Temperature Physics, 214(3-4), p.152 - 157, 2024/02

We built a new cryostat to apply a current-biased kinetic inductance detector (CB-KID) for conducting neutron transmission imaging of room temperature samples under pulsed neutrons. A Wood's metal alloy of melting temperature 75.2$$^{circ}$$C was placed at room temperature to inspect the measurement system at J-PARC. Since one of the four phases of Wood's metal is a fine Cd-rich needle phase (width $$sim$$ 25 $$mu$$m and length $$sim$$ 5 mm), it is suitable for observing fine mosaic structure selectively by neutron imaging. The spatial resolution of the CB-KID imager was estimated as $$sim$$ 10 $$mu$$m by using a Gd Siemens-star pattern. The CB-KID system is useful to conduct transmission imaging for various materials rather easily at room temperature.

論文

Proton diffusion in liquid 1,2,3-triazole studied by incoherent quasi-elastic neutron scattering

篠原 佑也*; 岩下 拓哉*; 中西 真大*; Osti, N. C.*; 古府 麻衣子; 楡井 真実; Dmowski, W.*; 江上 毅*

Journal of Physical Chemistry B, 128(6), p.1544 - 1549, 2024/02

Improving the proton transport in polymer electrolytes impacts the performance of next-generation solid-state batteries. However, little is known about proton conductivity in nonaqueous systems due to the lack of an appropriate level of fundamental understanding. Here, we studied the proton transport in small molecules with dynamic hydrogen bonding, 1,2,3-triazole, as a model system of proton hopping in a nonaqueous environment using incoherent quasi-elastic neutron scattering. By using the jump-diffusion model, we identified the elementary jump-diffusion motion of protons at a much shorter length scale than those by nuclear magnetic resonance and impedance spectroscopy for the estimated long-range diffusion. In addition, a spatially restricted diffusive motion was observed, indicating that proton motion in 1,2,3-triazole is complex with various local correlated dynamics. These correlated dynamics will be important in elucidating the nature of the proton dynamics in nonaqueous systems.

論文

The BCC $$rightarrow$$ FCC hierarchical martensite transformation under dynamic impact in FeMnAlNiTi alloy

Li, C.*; Fang, W.*; Yu, H. Y.*; Peng, T.*; Yao, Z. T.*; Liu, W. G.*; Zhang, X.*; 徐 平光; Yin, F.*

Materials Science & Engineering A, 892, p.146096_1 - 146096_11, 2024/02

The quasi-static superelastic responses and hierarchical martensite transformation from body-centered cubic (BCC) to face-centered cubic (FCC) under dynamic impact in Fe$$_{42}$$Mn$$_{34}$$Al$$_{15}$$Ni$$_{7.5}$$Ti$$_{1.5}$$ alloys were investigated. Polycrystalline and oligocrystalline alloys were produced through solution heat treatment and cyclic heat treatment processes, respectively. The results show the volume fraction of residual martensite for oligocrystalline alloys is lower, which exhibits better superelastic responses compared with polycrystalline alloys. Dynamic impact tests indicate that, despite the weakening of the grain boundary strengthening effect, the ultimate strength of the oligocrystalline alloys closely matches that of the polycrystalline alloys under dynamic impact. The martensite transformation of the FeMnAlNiTi alloy is characterized as hierarchical under dynamic impact, and increasing strain rates and grain sizes can enhance the BCC $$rightarrow$$ FCC martensite transformation, resulting in higher martensite phase fractions for oligocrystalline alloys. The increase in ultimate strength is attributed to the dynamic Hall-Petch effect introduced by more martensite phase interfaces under dynamic impact.

論文

Stable photoelectrochemical reactions at solid/solid interfaces toward solar energy conversion and storage

渡邊 健太*; 堀澤 侑平*; 吉本 将隆*; 田村 和久; 鈴木 耕太*; 菅野 了次*; 平山 雅章*

Nano Letters, 24(6), p.1916 - 1922, 2024/02

電気化学反応の固液界面から固固界面への拡張が進んでいる。本研究では、酸化チタン/リン酸リチウム/リチウムから構成される全固体電池で安定的に光電気化学反応を起こすことに成功した。酸化チタンの電位をフラットポテンシャルより正側にして光照射すると酸化電流が増加した。固固界面における光電気化学反応の原理は、固液界面の場合と同じであると考えられ、光電気化学反応が全固体電池でも起こせることを示した。

論文

Development of 0.5 mm gauge size radial collimators for high-pressure neutron diffraction experiments at PLANET in J-PARC

服部 高典; 鈴木 浩二*; 三代 達也*; 伊藤 崇芳*; 町田 真一*

Nuclear Instruments and Methods in Physics Research A, 1059, p.168956_1 - 168956_9, 2024/02

見込み幅0.5mmのラジアルコリメータを高圧中性子回折実験用に特別に設計し、その性能と有効性を調べた。0.75mm, 1.5mm, 3.0mmのラジアルコリメータはそれぞれ0.50mm, 1.07mm, 2.78mmのみこみ幅を示した。3つのラジアルコリメータの透過率はすべて同等であった。Paris-Edinburgh(PE)プレスとdiamond anvil cell (DAC)を使用した評価では、見込み幅0.5mmラジアルコリメータを使用した場合、アンビル散乱はかなり減少し、サンプル/アンビル信号比はPEプレスとDACでそれぞれ0.5と2.0に達した。これらの結果は、見込み幅0.5mmラジアルコリメータが意図したとおりに製作され、高圧中性子回折実験(特に30GPaを超える実験)に有効であることを示している。今回作成されたラジアルコリメータの見込み幅は、これまで世界の中性子散乱実験用に製作されたものの中で、最も小さい見込み幅を持つものである。

論文

Composition dependence of bulk properties in the Co-intercalated transition metal dichalcogenide Co$$_{1/3}$$TaS$$_{2}$$

Park, P.*; Cho, W.*; Kim, C.*; An, Y.*; Avdeev, M.*; 飯田 一樹*; 梶本 亮一; Park, J.-G.*

Physical Review B, 109(6), p.L060403_1 - L060403_7, 2024/02

Spontaneous Hall conductivity has recently been reported in the triangular lattice antiferromagnet Co$$_{1/3}$$TaS$$_{2}$$ under a zero magnetic field. This phenomenon originates from the distinctive noncoplanar triple-$$mathbf{Q}$$ magnetic ground state, possessing uniform real-space Berry curvature characterized by scalar spin chirality. We investigated the physical properties of Co$$_{1/3}$$TaS$$_{2}$$ by judiciously controlling the composition, revealing a drastic change in its bulk properties, even by slight variations in cobalt composition, despite the same crystal structure. For $$0.299 le x le 0.325$$, Co$$_{x}$$TaS$$_{2}$$ keeps all the characteristics of the ground state consistent with the previous studies --- two antiferromagnetic phase transitions at $$T_mathrm{N1}$$ and $$T_mathrm{N2}$$ ($$< T_mathrm{N1}$$), a large spontaneous Hall conductivity [$$sigma_{xy}(mathbf{H} = 0)$$], and a weak ferromagnetic moment along the $$c$$ axis. However, samples with $$x ge 0.330$$ exhibit distinct bulk properties, including the absence of both $$sigma_{xy}(mathbf{H} = 0)$$ and the weak ferromagnetic moment. Our neutron diffraction data reveal that Co$$_{x}$$TaS$$_{2}$$ with $$x ge 0.330$$ develops coplanar helical magnetic order with $$mathbf{q}_mathrm{m1} =(1/3, 0, 0)$$. This is entirely different from what has been seen in $$x le 0.325$$, explaining the observed composition dependence.

論文

Quantum critical behavior of the hyperkagome magnet Mn$$_3$$CoSi

山内 宏樹; Sari, D. P.*; 安井 幸夫*; 坂倉 輝俊*; 木村 宏之*; 中尾 朗子*; 大原 高志; 本田 孝志*; 樹神 克明; 井川 直樹; et al.

Physical Review Research (Internet), 6(1), p.013144_1 - 013144_9, 2024/02

$$beta$$-Mn-type family alloys Mn$$_3$$$$TX$$ have three-dimensional antiferromagnetic (AFM) corner-shared triangular network. The antiferromagnet Mn$$_3$$RhSi shows magnetic short-range order (SRO) over a wide temperature range of approximately 500 K above the N$'{e}$el temperature $$T_{rm N}$$ = 190 K. Mn$$_3$$CoSi has the smallest lattice parameter and the lowest $$T_{rm N}$$ in the family compounds. The quantum critical point (QCP) from AFM to the quantum paramagnetic state is expected near a cubic lattice parameter of 6.15 $AA. Although $T_N$$ of Mn$$_3$$CoSi is only 140 K, quantum critical behavior is observed in Mn$$_3$$CoSi as the enhancement of the electronic specific heat coefficient $$gamma$$. We study how the magnetic SRO appears in Mn$$_3$$CoSi by using neutron scattering, $$mu$$SR, and physical property measurements. The experimental results show that the neutron scattering intensity of the magnetic SRO does not change much regardless of the suppressed magnetic moment in the long-range magnetic ordered state compared to those of Mn$$_3$$RhSi. The initial asymmetry drop ratio of $$mu$$SR above $$T_{rm N}$$ becomes small, and the magnetic SRO temperature $$T_{SRO}$$ is suppressed to 240 K. The results suggest that the Mn$$_3$$CoSi is close to the QCP in the Mn$$_3$$$$TX$$ system.

論文

Anisotropic electrical conductivity changes in FeTiO$$_3$$ structure transition under high pressure

山中 高光*; 中本 有紀*; 坂田 雅文*; 清水 克哉*; 服部 高典

Physics and Chemistry of Minerals, 51(1), p.4_1 - 4_10, 2024/02

FeTiO$$_3$$イルメナイトの中性子及び放射光X線回折と電気伝導度測定を高圧下で行った。イルメナイトの構造は28GPaまで保持された。構造解析の結果、8GPa以下ではFeO$$_6$$は圧縮され、TiO$$_6$$はほとんど圧縮されないことが分かった。抵抗率は、金属イオン対の中で原子間距離が最も短いFe-Ti方向で最も小さかった。c軸に垂直な方向の抵抗率は圧力とともに単調減少するが、c軸に沿った抵抗率は圧力とともに山なりとなった。最大エントロピー解析の結果、Fe$$^{2+}$$(3$$d^6$$)の電子配置はTi$$^{4+}$$(3$$d^0$$)よりも圧縮下で大きく変化することがわかった。異方的な電気伝導度とFe-Ti原子間距離の非一様な圧縮は、Feイオンの高スピン状態から中間スピン状態へのスピン転移によって説明できるかもしれない。

論文

CH$$_3$$Cl dissociation, CH$$_3$$ abstraction, and Cl adsorption from the dissociative scattering of supersonic CH$$_3$$Cl on Cu(111) and Cu(410)

牧野 隆正*; 津田 泰孝; 吉越 章隆; Di$~n$o, W. A.*; 岡田 美智雄*

Applied Surface Science, 642, p.158568_1 - 158568_6, 2024/01

To study the elementary steps in the Rochow-Muller process, we bombarded Cu(111) and Cu(410) with 0.7-1.9 eV supersonic molecular beams (SSMB) of CH$$_3$$Cl. We then identified the corresponding adsorbed species using X-ray photoemission spectroscopy (XPS) in conjunction with synchrotron radiation (SR). We found Cl as the dominant adsorbed species (much higher than that of adsorbed carbonaceous species) coming from the dissociative scattering of CH$$_3$$Cl. We also found that the threshold kinetic energy of the reaction depends on the crystal surface orientation.

論文

Martensitic transformation behavior of Fe-Ni-C alloys monitored by ${it in-situ}$ neutron diffraction during cryogenic cooling

山下 享介*; Harjo, S.; 川崎 卓郎; 諸岡 聡; Gong, W.; 藤井 英俊*; 友田 陽*

ISIJ International, 64(2), p.192 - 201, 2024/01

${it In situ}$ neutron diffraction measurements were performed on Fe-33Ni-0.004C alloy (33Ni alloy) and Fe-27Ni-0.5C alloy (27Ni-0.5C alloy) during cooling from room temperature to the cryogenic temperature (4 K) to evaluate changes in the lattice constants of austenite and martensite, and changes in the tetragonality of martensite due to thermally induced martensitic transformation. As the martensitic transformation progressed, the lattice constants of austenite in both alloys deviated to smaller values than those predicted considering the thermal shrinkage, accompanied by an increase in the full width at half maximum of austenite. The fresh martensite formed in both alloys had a body-centered tetragonal (BCT) structure, regardless of the carbon content. The tetragonality of martensite decreased with progressive martensitic transformation during cooling in the 33Ni alloy, but was almost constant in the 27Ni-0.5C alloy. This suggests that carbon is necessary to maintain the tetragonality of martensite during cooling. The tetragonality of martensite in the 27Ni-0.5C alloy decreased during room temperature aging because of carbon mobility.

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