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Jeong, S. G.*; Kwon, J.*; Kim, E. S.*; Prasad, K.*; Harjo, S.; Gong, W.; 川崎 卓郎; Estrin, Y.*; Bouaziz, O.*; Hong, S. I.*; et al.
Materials Science & Engineering A, 942, p.148712_1 - 148712_11, 2025/10
The cellular structure plays a key role in determining the mechanical properties of metal additive manufacturing (MAM) components. This study presents in situ neutron diffraction and dislocation density-based modeling for a CoCrFeMnNi high-entropy alloy (HEA) made via directed energy deposition (DED). A constitutive model based on the Kocks-Mecking-Estrin framework was used to represent the cellular structure. Parametric analysis showed lower dislocation accumulation and annihilation rates in the as-built sample (with cellular structure) than in the heat-treated one. These differences are linked to dislocation forest networks and local stacking fault energy variations. Dislocation density across cell interiors and walls was also compared with deformation-induced dislocation cells.
江崎 蘭世; Go, G.*; Kim, S. K.*
Physical Review B, 112(10), p.104440_1 - 104440_10, 2025/09
In this study, we theoretically demonstrate that thermally excited magnons can induce scalar spin chirality (SSC) even in collinear spin systems. We show both numerically and analytically that the SSC increases with the magnitude of DMI and temperature and reveal that the magnon-induced SSC can achieve a magnitude comparable to those observed in non-coplanar spin configurations. These findings suggest that SSC plays a significant role even in collinear spin systems, providing new insights into the chiral physics of magnetic materials.
ders band-assisted high uniform ductility in ultrastrong ferrous medium-entropy alloy via hierarchical microstructureKwon, H.*; Lee, J. H.*; Zargaran, A.*; Harjo, S.; Gong, W.; Wang, J.*; Gu, G. H.*; Lee, B.-J.*; Bae, J. W.*; Kim, H. S.*
International Journal of Plasticity, 190, p.104378_1 - 104378_18, 2025/07
被引用回数:0 パーセンタイル:0.00(Engineering, Mechanical)In this work, we harness a hierarchical microstructure to simultaneously tailor strengthening and deformation mechanisms in a Co
Cr
Fe
Ni
Mo
(at%) ferrous medium-entropy alloy (MEA). A simple thermomechanical process (cold rolling and 90 s annealing) produces ultrafine recrystallized grains, non-recrystallized grains with substructures, and intragranular nanoprecipitates. This structure, with high dislocation density and fine grains, yields a high strength of 
1.60 GPa but can risk premature fracture. To overcome this, Lders deformation, enabled by ultrafine grain boundaries and stress-induced martensitic transformation at pre-existing nucleation sites, is employed. Stable Lders band propagation delays strain hardening and enables large uniform ductility. As a result, a tensile strength of 1.84 GPa and uniform elongation of 20% are achieved, matching the best tensile properties among reported multi-principal element alloys.
Gu, G. H.*; Jeong, S. G.*; Heo, Y.-U.*; Harjo, S.; Gong, W.; Cho, J.*; Kim, H. S.*; 他4名*
Journal of Materials Science & Technology, 223, p.308 - 324, 2025/07
被引用回数:1 パーセンタイル:67.80(Materials Science, Multidisciplinary)Face-centered cubic (FCC) equi-atomic multi-principal element alloys (MPEAs) exhibit excellent mechanical properties from cryogenic to room temperatures. At room temperature, deformation is dominated by dislocation slip, while at cryogenic temperatures (CTs), reduced stacking fault energy enhances strain hardening with twinning. This study uses in-situ neutron diffraction to analyze the temperature-dependent deformation behavior of Al
(CoNiV)
, a dual-phase (FCC/BCC) medium-entropy alloy (MEA). At liquid nitrogen temperature (LNT), deformation twinning in the FCC matrix leads to additional strain hardening through the dynamic Hall-Petch effect, giving the appearance of improved strengthening at LNT. In contrast, BCC precipitates show dislocation slip at both 77 K and 298 K, with temperature-dependent lattice friction stress playing a significant role in strengthening. The study enhances understanding of deformation behaviors and provides insights for future alloy design.
magnetic orderings in a triangular lattice; Implications for multi- orderings in general two-dimensional latticesPark, P.*; Cho, W.*; Kim, C.*; An, Y.*; 飯田 一樹*; 梶本 亮一; Matin, S.*; Zhang, S.-S.*; Batista, C. D.*; Park, J.-G.*
Physical Review X, 15(3), p.031032_1 - 031032_29, 2025/07
Multi- magnetic structures on two-dimensional (2D) lattices provide a key route to realizing topological physics in 2D magnetism. A major experimental challenge is to unambiguously confirm their formation by excluding the possibility of topologically trivial multi-domain single- or double- magnetic orders, which cannot be distinguished using conventional diffraction techniques. Here, we propose that long-wavelength spin dynamics offers a universal diagnostic for triangular lattices: triple- orders that preserve rotational symmetry and single- or double- orders that break it exhibit qualitatively distinct anisotropies in their Goldstone mode velocities, stemming from fundamental differences in their underlying spin configurations. We validate this concept using the metallic triangular-lattice antiferromagnet Co
TaS
, which hosts both a stripe-type single- state and a triple- tetrahedral ordering at different temperatures. Using inelastic neutron-scattering and spin dynamics simulations, we first refine the spin Hamiltonian by fitting the paramagnetic excitation spectra, allowing us to develop an unbiased model independent of magnetic ordering. We then show that the observed velocity profiles of the Goldstone modes agree with the high-temperature model's predictions: markedly anisotropic for the single- phase and near isotropic for the triple- phase. Importantly, this contrast persists across various exchange parameters, highlighting its model-independent nature and suggesting potential applicability to other 2D lattice systems. Beyond the long-wavelength regime, we present a substantial discrepancy between the measured and simulated magnon spectra exclusively in the triple- phase. We attribute this discrepancy to magnon energy renormalization arising from order-of-magnitude-enhanced magnon-magnon interactions in the triple- phase, due to its noncollinear configuration. This work provides universal insight into the dynamical properties of topological multi- magnetic orderings in 2D lattice structures, offering a broadly applicable diagnostic to distinguishing them from topologically trivial single- or double- counterparts. The unequivocal confirmation of the triple- structure in CoTaS further establishes it as a prominent material platform for exploring topological spin textures in the genuine 2D limit.
杉田 裕; 大野 宏和; Beese, S.*; Pan, P.*; Kim, M.*; Lee, C.*; Jove-Colon, C.*; Lopez, C. M.*; Liang, S.-Y.*
Geomechanics for Energy and the Environment, 42, p.100668_1 - 100668_21, 2025/06
被引用回数:1 パーセンタイル:70.95(Energy & Fuels)国際共同プロジェクトDECOVALEX-2023は、数値解析を使用してベントナイト系人工バリアの熱-水-応力(または熱-水)相互作用を研究するためのタスクDとして、幌延人工バリア性能確認試験を対象とした。このタスクは、モデル化のために、1つの実物大の原位置試験と、補完的な4つの室内試験が選択された。幌延人工バリア性能確認試験は、人工的な地下水注入と組み合わせた温度制御非等温の試験であり、加熱フェーズと冷却フェーズで構成されている。6つの研究チームが、さまざまなコンピューターコード、定式化、構成法則を使用して、熱-水-応力または熱-水(研究チームのアプローチによって異なる)数値解析を実行した。
Go, G.*; Goli, D. P.*; 江崎 蘭世; Tserkovnyak, Y.*; Kim, S. K.*
Physical Review Research (Internet), 7(2), p.L022066_1 - L022066_7, 2025/06
It remains an open question whether or not the scalar spin chirality itself can exhibit a Hall-type transport. In this work, we show that the answer is yes: The scalar spin chirality is Hall-transported in Kagome ferromagnets and antiferromagnets under an external bias, engendering a phenomenon which we dub the scalar spin chirality Nernst effect. Our findings call for the need to lift the conventional assumption that the scalar spin chirality is a static quantity in order to discover the active roles of the scalar spin chirality in transport properties.
Kim, M.*; Lee, C.*; 杉田 裕; Kim, J.-S.*; Jeon, M.-K.*
Geomechanics for Energy and the Environment, 41, p.100628_1 - 100628_9, 2025/03
被引用回数:1 パーセンタイル:70.95(Energy & Fuels)この研究では、DECOVALEX-2023プロジェクトの一環として幌延の地下研究施設で実施された実規模大の人工バリア試験の数値解析を使用して、非等温二相流のモデリングに対する主要変数の選択の影響を調査した。検証済みの数値モデルを使用して、人工バリアシステム内の不均質多孔質媒体の熱-水連成挙動を解析した。支配方程式を離散化する際の2つの異なる主要変数スキームを比較したところ、結果に大きな違いがあることが明らかになった。
川崎 卓郎; 福田 竜生; 山中 暁*; 村山 一郎*; 加藤 孝典*; 馬場 将亮*; 橋本 英樹*; Harjo, S.; 相澤 一也; 田中 裕久*; et al.
Journal of Applied Physics, 137(9), p.094101_1 - 094101_7, 2025/03
被引用回数:0 パーセンタイル:0.00(Physics, Applied)Energy harvesting from waste heat can improve energy efficiency in society. This research investigated the structural behaviors of lead zirconate titanate-based ferroelectric ceramics using operando neutron diffraction measurements under the conditions of two energy-harvesting cycles that involve consideration of the temperature changes of automobile exhaust gas for achieving good harvesting efficiencies. Input and output electrical energies and neutron diffraction data were simultaneously collected. The obtained time-resolved neutron-diffraction intensity data indicate that the applied electric fields and temperature changes induced 90
domain rotation and lattice strain. These structural changes and their variations depending on cycle conditions, such as temperature changes, applied electric fields, and circuit switching, provide insight into the origins of the differences in the behaviors of electrical input/output energies in the cycles.
Chung, J.-H.*; Kwangwoo, S.*; Yokoo, Tetsuya R.; 植田 大地*; 今井 正樹; Kim, H.-S.; Kiem, D. H.; Han, M. J.*; 社本 真一
Scientific Reports (Internet), 15, p.5978_1 - 5978_10, 2025/02
被引用回数:0 パーセンタイル:0.00(Multidisciplinary Sciences)Two dimensional honeycomb ferromagnets host massless Dirac magnons which are a bosonic analogue of Dirac fermions in graphene. The Dirac magnons may become massive and topological when the time-reversal symmetry breaks and an energy gap opens up at the Dirac point, which was experimentally observed in Cr
-based van der Waals magnets. Here, we investigate the spin wave excitations in the 
magnetic oxide FeTiO with Fe
electrons (
). Using inelastic neutron scattering, we observe two magnon bands separated by a 1.2-meV gap at the Dirac points indicating that its Dirac magnons are massive. Using the linear spin-wave and density functional theory calculations, we find that the spin-orbit-coupled antisymmetric Dzyaloshinskii-Moriya exchanges can best account for the observed Dirac gap opening. The associated Berry curvature and Chern number (
) indicate that FeTiO hosts topological spin excitations via time-reversal symmetry breaking of Dirac magnons.
Im, S.*; Jee, H.*; 兼松 学*; 諸岡 聡; Choe, H.*; 西尾 悠平*; 町田 晃彦*; 冨永 亜希; Jeon, B. H.*; Bae, S.*
Construction and Building Materials, 459, p.139742_1 - 139742_17, 2025/01
被引用回数:1 パーセンタイル:18.36(Construction & Building Technology)The influence of thermal deformation in lattice structure and inter-atomic distance on the residual mechanical properties of calcium silicate hydrate (CSH)/polycarboxylate superplasticizer (PCE) composites at varying Ca/Si ratios remains ambiguous. Here, correlations between the multiscale structural transformation and mechanical properties of CSH/PCE composites with Ca/Si ratios ranging of 0.6 to 1.0 are investigated using ex situ small-angle X-ray scattering (Q = 0.005 - 2.7 
) and in situ loading wide-angle X-ray scattering (Q = 1 - 18.5 ).
Cho, S. H.*; Cho, S. W.*; Lv, Z.*; 関根 由莉奈; Liu, S.*; Zhou, M.*; Nuxoll, R. F.*; Kanatzidis, E. E.*; Ghaffari, R.*; Kim, D.*; et al.
Lab on a Chip, 9 Pages, 2025/00
被引用回数:1 パーセンタイル:76.25(Biochemical Research Methods)アミノ酸は体内のタンパク質合成と代謝プロセスに不可欠な物質である。本研究では、運動中の汗からのアミノ酸損失について定量的に調べることを目的とした。汗中のアミノ酸含有量をリアルタイムで分析するため、測定のための技術基盤としてウェアラブルなマイクロ流体システムを構築した。定量分析を実現するため、ウェアラブルデバイスに蛍光アッセイを組み込み、さらにスマートフォンベースの画像化技術を統合させたシステムを開発した。
松場 賢一; 加藤 慎也; 神山 健司; Akaev, A. S.*; Vurim, A. D.*; Baklanov, V. V.*
Proceedings of 31st International Conference on Nuclear Engineering (ICONE31) (Internet), 7 Pages, 2024/11
ナトリウム冷却高速炉(SFR)においてシビアアクシデントが発生すると、溶融炉心物質が制御棒案内管などの冷却材流路を通じて原子炉容器下部のナトリウム領域に向かって放出される可能性がある。典型的なSFRは、その炉心領域の下に炉心入口プレナムなどの深さと容積が限られたナトリウムプレナムを有する。そのため、深さと容積に制限のあるナトリウムプレナム内に排出される溶融炉心物質の冷却性を評価することが重要である。本研究では、このようなナトリウムプレナム内へ排出された溶融炉心物質の冷却性に関する理解を深めるため、液体ナトリウムで満たされた試験容器内に溶融燃料模擬物質(溶融アルミナ)を排出する試験で得られたデータの分析結果に基づき、溶融炉心物質が微粒化した固化物を形成する条件について考察した。
signatures in two-dimensional cone beam interferometrySarenac, D.*; Gorbet, G.*; Clark, C. W.*; Cory, D. G.*; Ekinci, H.*; Henderson, M. E.*; Huber, M. G.*; Hussey, D. S.*; Kapahi, C.*; Kienzle, P. A.*; et al.
Physical Review Research (Internet), 6(3), p.L032054_1 - L032054_8, 2024/09
Neutron interferometry has played a distinctive role in fundamental science and characterization of materials. Moir neutron interferometers are candidate next-generation instruments: they offer microscopy-like magnification of the signal, enabling direct camera recording of interference patterns across the full neutron wavelength spectrum. Here we demonstrate the extension of phase-grating moir interferometry to two-dimensional geometries. Our measurements of phase topologies and gravitationally induced phase shifts are in good agreement with theory.
Khemchandani, K. P.*; Mart
nez Torres, A.*; Kim, S.-H.*; Nam, S.-I.*; 保坂 淳; 永廣 秀子*
EPJ Web of Conferences, 301, p.03001_1 - 03001_10, 2024/08
被引用回数:0 パーセンタイル:0.00(Physics, Nuclear)3個の軽いクォークからなるバリオン共鳴がバレンスクォーク模型で記述できない例について議論する。
Peri
ez, R.*; Bezhenar, R.*; Maderych, V.*; Brovchenko, I.*; Liptak, L.*; 小林 卓也; Min, B.-I.*; Suh, K. S.*; Little, A.*; Iosjpe, M.*; et al.
IAEA-TECDOC-2060, 55 Pages, 2024/07
IAEAは、2016年から2019年にかけて、放射線影響評価のためのモデリングとデータに関する(MODARIA II)プログラムを組織した。MODARIA IIの第7作業部会「海洋環境に放出された放射性核種の移行挙動の評価」では、拡散モデルを使用した海洋環境における放射性核種のシミュレーションに関する一般情報をまとめた。そして、東京電力福島第一原子力発電所事故シナリオを用いてCs-137の広域シミュレーションと生物への移行について検討するとともに、大西洋シナリオとして、ヨーロッパの核燃料使用済施設からの歴史的な放出について検討した。最後に、ラグランジェモデルにおける補間スキームの試験を実施した。本書は第7作業部会の活動内容について述べたものである。
Nguyen, T.-D.*; Singh, C.*; Kim, Y. S.*; Han, J. H.*; Lee, D.-H.*; Lee, K.*; Harjo, S.; Lee, S. Y.*
Journal of Materials Research and Technology, 31, p.1547 - 1556, 2024/07
被引用回数:6 パーセンタイル:78.45(Materials Science, Multidisciplinary)This study investigates the mechanical properties of a friction-stir-welded (FSW) AA6061-T6 aluminum alloy at ultra-low temperature (ULT) of 20 K. In-situ neutron diffraction and orientation imaging microscopy were employed to compare the tensile deformation behavior of the base metal (BM) and heat-affected zone (HAZ) in the FSW aluminum plate. The results demonstrate that compared to room-temperature (RT), ULT induces a significant improvement in tensile strength and ductility in both the BM and HAZ. The enhanced mechanical properties in BM at ULT result from a more homogeneous deformation than occurs at RT. On the other hand, HAZ at ULT exhibits an even lower yield strength than at RT, but the strain hardening rate (SHR) is the most significant among the alloys, leading to a tensile strength of 346 MPa and the highest ductility of 46.8%. The lowest yield strength corresponds to the lowest-hardness zones in HAZ, caused by dissolved/coarsened precipitates during the FSW process.
Kim, J.*; Thompson, B. R.*; 富永 大輝*; 大澤 崇人; 江上 毅*; F
rster, S.*; Ohl, M.*; Senses, E.*; Faraone, A.*; Wagner, N. J.*
ACS Macro Letters (Internet), 13(6), p.720 - 725, 2024/06
被引用回数:2 パーセンタイル:32.30(Polymer Science)準弾性中性子散乱(QENS)を用いて、モデルナノ複合材料であるポリエチレンオキシド(PEO)/シリカナノ粒子(NPs)中のポリマー鎖のラウスダイナミクスを調べた。ポリマー鎖の見かけのラウス速度は粒子負荷が増加するにつれて減少した。しかし、数十psの時間スケールでは、不動なセグメント集団の証拠はない。ダイナミクスの鈍化は、NP相間領域における鎖の修正ラウスモデルの観点から解釈される。こうして、バルクのような鎖集団とラウスモードの抑制を特徴とする鎖集団の2つが同定された。相間領域の空間的な広がりは、吸着層の厚さの約2倍、約2nmと見積もられた。これらの結果は、NPs表面における連鎖ダイナミクスの抑制を詳細に説明するものである。これらの結果は、表面効果と閉じ込めに関する関連した洞察であり、十分に分散したNPを有するポリマーナノコンポジット(PNC)のレオロジー特性を理解するための基礎を提供するものである。
久保田 真彦*; Kim, S.-Y.*; Wu, H.*; 渡部 創; 佐野 雄一; 竹内 正行; 新井 剛*
Journal of Radioanalytical and Nuclear Chemistry, 333(5), p.2413 - 2420, 2024/05
To minimize the use of organic solvents and achieve a selective adsorption separation of minor actinides (MA(III)) and Ln(III), adsorbents consisting of SiO-P particles impregnated with hexaoctylnitrilotriacetamide (HONTA) were prepared. Batch experiments were performed to evaluate the adsorption properties of the HONTA/SiO-P adsorbent for MA(III) and simulated fission products in HNO
solution. The uniform distribution of Eu(III) on the adsorbent was confirmed via particle induced X-ray emission analysis, and X-ray photoelectron spectroscopy revealed that EuNO was the adsorbed species. This study provides a simplified process for the separation of MA(III) using a HONTA/SiO-P packed column.
Kim, Y. S.*; Chae, H.*; Lee, D.-Y.*; Han, J. H.*; Hong, S.-K.*; Na, Y. S.*; Harjo, S.; 川崎 卓郎; Woo, W.*; Lee, S.-Y.*
Materials Science & Engineering A, 899, p.146453_1 - 146453_7, 2024/05
被引用回数:7 パーセンタイル:78.45(Nanoscience & Nanotechnology)This work focused on the mechanical properties and serration-involved deformation behavior of advanced alloys at 15 K. Evolution of stacking faults and 
-martensite improved the mechanical performance of CoCrNi alloys, and significant strain-induced martensite transformation of DED-SS316L led to superior strength and strain hardening. A magnitude in stress drop was governed by dislocation density, phase type, and lattice defects, irrespective of processing method. FCC {200} notably was influenced recovery behavior after stress drop, and the contribution of strain energy density by serration on tensile toughness was the greatest for HR-CoCrNi.
