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1. A multiclass classification model for predicting the thermal conductivity of uranium compounds

Author

Sun, Y., Kumagai, M., Jin, M., Sato, E., Aoki, M., Ohishi, Y., Kurosaki, K., Sun, Y., Kumagai, M., Jin, M., Sato, E., Aoki, M., Ohishi, Y., and Kurosaki, K.

Abstract

Advanced nuclear fuels are designed to offer improved performance and accident tolerance, with an emphasis on achieving higher thermal conductivity. While promising fuel candidates like uranium nitrides, carbides, and silicides have been widely studied, the majority of uranium compounds remain unexplored. To search for potential candidates among these unexplored uranium compounds, we incorporated machine learning to accelerate the material discovery process. In this study, we trained a multiclass classification model to predict a compound’s thermal conductivity based on 133 input features derived from element properties and temperature. The initial training data consist of over 160, 000 processed thermal conductivity records from the Starrydata2 database, but a skewed data class distribution led the trained model to underestimate compound’s thermal conductivity. Consequently, we addressed the issue of class imbalance by applying Synthetic Minority Oversampling TEchnique and Random UnderSampling, improving the recall for materials with thermal conductivity higher than 15 W/mK from 0.64 to 0.71. Finally, our best model is used to identify 119 potential advanced fuel candidates with high thermal conductivity among 774 stable uranium compounds. Our results underscore the potential of machine learning in the field of nuclear science, accelerating the discovery of advanced nuclear materials.

Published
2024

3. Intermittent maser flare around the high mass young stellar object G353.273+0.641 I: data & overview

Author

Motogi, K., Sorai, K., Honma, M., Minamidani, T., Takekoshi, T., Akiyama, K., Tateuchi, K., Hosaka, K., Ohishi, Y., Watanabe, Y., Habe, A., and Kobayashi, H.

Subjects
Astrophysics - Solar and Stellar Astrophysics
Abstract

We have performed VLBI and single-dish monitoring of 22 GHz H$_{2}$O maser emission from the high mass young stellar object G353.273+0.641 with VERA (VLBI Exploration of Radio Astrometry) and Tomakamai 11-m radio telescope. Two maser flares have been detected, separated almost two years. Frequent VLBI monitoring has revealed that these flare activities have been accompanied by structural change of the prominent shock front traced by H2O maser alignments. We have detected only blue-shifted emissions and all maser features have been distributed within very small area of 200 $\times$ 200 au$^{2}$ in spite of wide velocity range (> 100 km s$^{-1}$). The light curve shows notably intermittent variation and suggests that the H$_{2}$O masers in G353.273+0.641 are excited by episodic radio jet. The time-scale of \sim2 yr and characteristic velocity of \sim500 km s$^{-1}$ also support this interpretation. Two isolated velocity components of C50 (-53 \pm 7 km s$^{-1}$) and C70 (-73 \pm 7 km s$^{-1}$) have shown synchronised linear acceleration of the flux weighted $V_{\rmn{LSR}}$ values (\sim-5 km s$^{-1}$ yr$^{-1}$) during the flare phase. This can be converted to the lower-limit momentum rate of 1.1 \times 10$^{-3}$ M$_{\sun}$ km s$^{-1}$ yr$^{-1}$. Maser properties are quite similar to that of IRAS 20126+4104 especially. This corroborates the previous suggestion that G353.273+0.641 is a candidate of high mass protostellar object. The possible pole-on geometry of disc-jet system can be suitable for direct imaging of the accretion disc in this case., Comment: 13 pages, 5 figures accepted for publication in MNRAS

Published
2011
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4. Pressure evolution of low-temperature crystal structure and bonding of 37 K $T_c$ FeSe superconductor

Author

Margadonna, S., Takabayashi, Y., Ohishi, Y., Mizuguchi, Y., Takano, Y., Kagayama, T., Nakagawa, T., Takata, M., and Prassides, K.

Subjects
Condensed Matter - Superconductivity
Abstract

FeSe with the PbO structure is a key member of the family of new high-$T_c$ iron pnictide and chalcogenide superconductors, as while it possesses the basic layered structural motif of edge-sharing distorted FeSe$_4$ tetrahedra, it lacks interleaved ion spacers or charge-reservoir layers. We find that application of hydrostatic pressure first rapidly increases $T_c$ which attains a broad maximum of 37 K at $\sim$7 GPa (this is one of the highest $T_c$ ever reported for a binary solid) before decreasing to 6 K upon further compression to $\sim$14 GPa. Complementary synchrotron X-ray diffraction at 16 K was used to measure the low-temperature isothermal compressibility of $\alpha$-FeSe, revealing an extremely soft solid with a bulk modulus, $K_0$ = 30.7(1.1) GPa and strong bonding anisotropy between inter- and intra-layer directions that transforms to the more densely packed $\beta$-polymorph above $\sim$9 GPa. The non-monotonic $T_c$($P$) behavior of FeSe coincides with drastic anomalies in the pressure evolution of the interlayer spacing, pointing to the key role of this structural feature in modulating the electronic properties.

Published
2009
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5. Pressure/temperature/substitution-induced melting of A-site charge disproportionation in Bi_(1-x)La_(x)NiO_3 (0 =< x =< 0.5)

Author

Ishiwata, S., Azuma, M., Hanawa, M., Moritomo, Y., Ohishi, Y., Kato, K., Takata, M., Nishibori, E., Sakata, M., Terasaki, I., and Takano, M.

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

Metal-insulator transitions strongly coupled with lattice were found in Bi1-xLaxNiO3. Synchrotron X-ray powder diffraction revealed that pressure (P ~ 3 GPa, T = 300 K), temperature (T ~ 340 K, x = 0.05), and La-substitution (x ~ 0.075, T = 300 K) caused the similar structural change from a triclinic (insulating) to an orthorhombic (metallic) symmetry, suggesting melting of the A-site charge disproportionation. Comparing crystal structure and physical properties with the other ANiO3 series, an electronic state of the metallic phase can be described as [A3+Ld, Ni2+L1-d], where a ligand-hole L contributes to a conductivity. We depicted a schematic P-T phase diagram of BiNiO3 including a critical point (3 GPa, 300 K) and an inhomogeneous region, which implies universality of ligand-hole dynamics in ANiO3 (A = Bi, Pr, Nd,...)., Comment: 24 pages, 8 figures, Phys. Rev. B in press

Published
2005
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6. Compressibility of the MgB2 Superconductor

Author

Prassides, K., Iwasa, Y., Ito, T., Chi, D. H., Uehara, K., Nishibori, E., Takata, M., Sakata, S., Ohishi, Y., Shimomura, O., Muranaka, T., and Akimitsu, J.

Subjects
Condensed Matter - Superconductivity
Abstract

Considerable excitement has been caused recently by the discovery that the binary boride system with stoichiometry MgB2 is superconducting at the remarkably high temperature of 39 K (1). This potentially opens the way to even higher Tc values in a new family of superconductors with unexpectedly simple composition and structure. The simplicity in the electronic and crystal structures could allow the understanding of the physics of high-Tc superconductivity without the presence of the multitude of complicated features, associated with the cuprates. Synchrotron X-ray diffraction was used to measure the isothermal compressibility of MgB2, revealing a stiff tightly-packed incompressible solid with only moderate bonding anisotropy between intra- and inter-layer directions. These results, combined with the pressure evolution of the superconducting transition temperature, Tc establish its relation to the B and Mg bonding distances over a broad range of values., Comment: 6 pages, 3 figures

Published
2001
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10. Volume compression of period 4 elements: Zn, Ge, As, and Se above 200 GPa: Ordering of atomic volume by atomic number.

Author

Akahama, Y., Kamiue, K., Okawa, N., Kawaguchi, S., Hirao, N., and Ohishi, Y.

Subjects
ATOMIC number, EQUATIONS of state, X-ray diffraction measurement, PHASE transitions, ELECTRONIC structure
Abstract

X-ray diffraction measurements of period 4 elements, including Zn, Ge, As, and Se, were extended up to pressures of 251, 249, 250, and 317 GPa, respectively, and the structural phase transitions were investigated. The hcp phase of Zn was stable up to 251 GPa, while a decrease in the optical reflectance of the sample above 50 GPa suggests a change in the electronic structure, such as a semimetallic transition. Ge transformed from the Cmca phase to the hcp phase with a volume reduction (−ΔV) of approximately 1% at 180 GPa. In the stable region of the Cmca phase, the hcp phase, which has a larger atomic volume than the Cmca phase, coexisted with the Cmca phase, and both atomic volumes reversed at approximately 180 GPa. For As, the monoclinic host–guest phase transformed to the bcc phase with −ΔV = 2.6% at 126 GPa. The β-Po-type phase of Se transformed to the bcc phase with −ΔV = 1.9% at 140 GPa, and the bcc phase was stable up to 317 GPa although a bcc–fcc phase transition was theoretically predicted. The equations of state of the monatomic metallic high-pressure phases were determined. The atomic volume of the monatomic metallic phases for period 4 elements increased with increasing atomic number, and the systematicity reported for period 5 elements was observed. Moreover, in the monatomic metallic phases of typical group 12–17 elements for periods 4 and 5, the atomic volume is ordered with increasing atomic number above 200 GPa. [ABSTRACT FROM AUTHOR]

Published
2021
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14. Pressure-induced reentrant structural transition and equation of state of indium.

Author

Akahama, Y., Takahashi, K., Kamiue, K., Sugimoto, T., Hirao, N., and Ohishi, Y.

Subjects
EQUATIONS of state, INDIUM, STRUCTURAL stability, SYNCHROTRONS, X-ray diffraction
Abstract

The structural stability of indium was investigated under high pressures up to 247 GPa using synchrotron X-ray diffraction techniques. A reentrant structural transition from a face-centered tetragonal (fct-I with c/a > 1) to a face-centered orthorhombic (fco) and further to an fct-I structure was revealed. The first transition (from fct-I to fco) and the second transition (from fco to fct-I) were observed at approximately 50 GPa and 150 GPa, respectively. The second transition was of the second order despite the first transition being of the first order. The theoretically predicted fct-II (c/a < 1) phase was not observed at pressures up to 247 GPa. The equation of state of indium is discussed compared to that of other period 5 elements. [ABSTRACT FROM AUTHOR]

Published
2019
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19. P46.04 Different Effects of Crizotinib Treatment in Three Lung Adenocarcinoma Patients With Various ROS1 Fusion Variants

Author

Nakanishi, Y., primary, Ohishi, Y., additional, Iida, Y., additional, Nakagawa, Y., additional, Shimizu, T., additional, Tsujino, I., additional, Hirotani, Y., additional, Tanino, T., additional, Nishimaki, H., additional, Kobayashi, H., additional, Nozaki, F., additional, Ohni, S., additional, Tang, X., additional, Gon, Y., additional, and Masuda, S., additional

Published
2021
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41. Ultrahigh-pressure form of Si O2 glass with dense pyrite-type crystalline homology

Author

Murakami, M., Kohara, S., Kitamura, N., Akola, J., Inoue, H., Hirata, A., Hiraoka, Y., Onodera, Y., Obayashi, I., Kalikka, J., Hirao, N., Musso, T., Foster, A. S., Idemoto, Y., Sakata, O., Ohishi, Y., Tampere University, Physics, Research area: Computational Physics, Research group: Materials and Molecular Modeling, Swiss Federal Institute of Technology Zurich, National Institute for Materials Science Tsukuba, Tokyo University of Science, The University of Tokyo, Waseda University, RIKEN, Japan Synchrotron Radiation Research Institute, Surfaces and Interfaces at the Nanoscale, Department of Applied Physics, Aalto-yliopisto, and Aalto University

Subjects
114 Physical sciences
Abstract

High-pressure synthesis of denser glass has been a longstanding interest in condensed-matter physics and materials science because of its potentially broad industrial application. Nevertheless, understanding its nature under extreme pressures has yet to be clarified due to experimental and theoretical challenges. Here we reveal the formation of OSi4 tetraclusters associated with that of SiO7 polyhedra in SiO2 glass under ultrahigh pressures to 200 gigapascal confirmed both experimentally and theoretically. Persistent homology analyses with molecular dynamics simulations found increased packing fraction of atoms whose topological diagram at ultrahigh pressures is similar to a pyrite-type crystalline phase, although the formation of tetraclusters is prohibited in the crystalline phase. This critical difference would be caused by the potential structural tolerance in the glass for distortion of oxygen clusters. Furthermore, an expanded electronic band gap demonstrates that chemical bonds survive at ultrahigh pressure. This opens up the synthesis of topologically disordered dense oxide glasses. acceptedVersion

Published
2019

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