Your search keyword '"Sakai, H."' showing total 9,514 results

1. Nonreciprocal charge transport in polar Dirac metals with tunable spin-valley coupling

Author

Kondo, M., Kimata, M., Ochi, M., Kaneko, T., Kuroki, K., Sudo, K., Sakaguchi, S., Murakawa, H., Hanasaki, N., and Sakai, H.

Subjects

Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Materials Science

Abstract

Nonreciprocal charge transport in solids, where resistance is different between rightward and leftward currents, is a key function of rectifying devices in the modern electronics, as exemplified by $p$-$n$ semiconductor junctions. Recently, this was also demonstrated in noncentrosymmetric materials in magnetic fields, since their band structure exhibits spin polarization coupled to the position of momentum space due to the antisymmetric spin-orbit coupling. To enhance the magnitude of nonreciprocal effect, it is essential to tune such spin-momentum coupling, which has been hampered in the conventional materials owing to the difficulty in controlling the broken inversion symmetry built into the lattice and interfacial structures. Here we report large nonreciprocal resistivity in layered polar metal BaMn$X_2$ ($X$=Sb, Bi), where the spin-polarized Dirac dispersion depends on the in-plane polarization tunable by chemical substitution of the $X$ site. For $X$=Sb with a pair of single-type valleys, the nonreciprocal resistivity increases monotonically with decreasing temperature, while for $X$=Bi with multiple types of valleys it is reduced by about an order of magnitude and exhibits a peak at a low temperature. Theoretical calculations indicate that the nonreciprocal resistivity is sensitive not only to the spin-momentum (spin-valley) coupling, but also to the Fermi energy and the Dirac dispersion. The observed significant variation of nonreciprocal transport in the same series of materials might be of great use in the design of junction-free rectifying devices and circuits., Comment: 10 pages, 7 figures. This article is already published in Physical Review Research

Published

2025

2. Three-nucleon force effects in polarization transfers from the doubly spin-polarized initial proton-deuteron state to the outgoing proton in proton-deuteron scattering

Author

Witała, H., Golak, J., Skibiński, R., Sakai, H., and Sekiguchi, K.

Subjects

Nuclear Theory

Abstract

We discuss new spin observables presently accessible to measurement, namely polarization transfer coefficients from doubly spin-polarized initial state to the outgoing proton in the elastic proton-deuteron (pd) scattering and in the deuteron breakup reactions. The sensitivity of these observables to three-nucleon force (3NF) effects is investigated and compared to sensitivities of the constituent standard single polarization transfer coefficients. $K_{y,y}^{y'}$ in elastic pd scattering, for which large 3NF effects, up to 40\%, have been found at higher energies, seems the most promising observable to measure., Comment: 23 pages, 7 figures

Published

2024

3. Reinforcement of superconductivity by quantum critical fluctuations of metamagnetism in UTe$_2$

Author

Tokiwa, Y., Opletal, . P., Sakai, H., Kambe, S., Yamamoto, E., Kimata, M., Awaji, S., Sasaki, T., Aoki, D., Haga, Y., and Tokunaga, Y.

Subjects

Condensed Matter - Superconductivity, Condensed Matter - Strongly Correlated Electrons

Abstract

The normal-conducting state of the superconductor UTe$_2$ is studied by entropy analysis for magnetic fields along the $b$-axis, obtained from magnetization using the relation $(\partial M/\partial T)_B=(\partial S/\partial B)_T$. We observe a strong increase in entropy with magnetic field due to metamagnetic fluctuations (spatially uniform, $Q=0$). The field dependence is well described by the Hertz-Millis-Moriya theory for quantum criticality of itinerant metamagnetism. Notably, the lower bound of the quantum-critical region coincides well with the position of the minimum in the superconducting transition temperature $T_c(B)$. Hence, our results suggest that $Q=0$ fluctuations reinforce the superconductivity., Comment: accepted as a Letter in Phys. Rev. B

Published

2024

4. Absolute value measurement of ion-scale turbulence by two-dimensional phase contrast imaging in Large Helical Device

Author

Kinoshita, T., Tanaka, K., Sakai, H., Yanai, R., Nunami, M., and Michael, C. A.

Subjects

Physics - Plasma Physics, Physics - Applied Physics

Abstract

Absolute value measurements of turbulence amplitude in magnetically confined high-temperature plasmas can effectively explain turbulence-driven transport characteristics and their role in plasma confinements. Two-dimensional phase contrast imaging (2D-PCI) is a technique to evaluate the space-time spectrum of ion-scale electron density fluctuation. However, absolute value measurement of turbulence amplitude has not been conducted owing to the nonlinearity of the detector. In this study, the absolute measurement method proposed in the previous study is applied to turbulence measurement results in the large helical device. As a result, the localized turbulence amplitude at $n_e=1.5\times 10^{19}$m$^{-3}$ is approximately $3.5\times 10^{15}$m$^{-3}$, which is 0.02\% of the electron density. In addition, the evaluated poloidal wavenumber spectrum is almost consistent, within a certain error range, the spectrum being calculated using a nonlinear gyrokinetic simulation. This result is the first to the best of our knowledge to quantitatively evaluate turbulence amplitudes measured by 2D-PCI and compare with simulations.

Published

2023

5. Quasi-2D Fermi surface in the anomalous superconductor UTe2

Author

Eaton, A. G., Weinberger, T. I., Popiel, N. J. M., Wu, Z., Hickey, A. J., Cabala, A., Pospíšil, J., Prokleška, J., Haidamak, T., Bastien, G., Opletal, P., Sakai, H., Haga, Y., Nowell, R., Benjamin, S. M., Sechovský, V., Lonzarich, G. G., Grosche, F. M., and Vališka, M.

Published

2024

6. Fully gapped pairing state in spin-triplet superconductor UTe$_2$

Author

Suetsugu, S., Shimomura, M., Kamimura, M., Asaba, T., Asaeda, H., Kosuge, Y., Sekino, Y., Ikemori, S., Kasahara, Y., Kohsaka, Y., Lee, M., Yanase, Y., Sakai, H., Opletal, P., Tokiwa, Y., Haga, Y., and Matsuda, Y.

Subjects

Condensed Matter - Superconductivity

Abstract

Spin-triplet superconductors provide an ideal platform for realizing topological superconductivity with emergent Majorana quasiparticles. The promising candidate is the recently discovered superconductor UTe$ _2$, but the symmetry of the superconducting order parameter remains highly controversial. Here we determine the superconducting gap structure by the thermal conductivity of ultra-clean UTe$ _2$ single crystals. We find that the $a$ axis thermal conductivity divided by temperature $\kappa/T$ in zero-temperature limit is vanishingly small for both magnetic fields $\mathbf{H}||a$ and $\mathbf{H}||c$ axes up to $H/H_{c2}\sim 0.2$, demonstrating the absence of any types of nodes around $a$ axis contrary to the previous belief. The present results, combined with the reduction of the NMR Knight shift in the superconducting state, indicate that the superconducting order parameter belongs to the isotropic $A_u$ representation with a fully gapped pairing state, analogous to the B phase of superfluid $ ^3$He. These findings reveal that UTe$ _2$ is likely to be a long-sought three-dimensional (3D) strong topological superconductor characterized by a 3D winding number, hosting helical Majorana surface states on any crystal plane., Comment: 10pages, 4 figures

Published

2023

7. Anisotropic Enhancement of Lower Critical Field in Ultraclean Crystals of Spin-Triplet Superconductor UTe2

Author

Ishihara, K., Kobayashi, M., Imamura, K., Konczykowski, M., Sakai, H., Opletal, P., Tokiwa, Y., Haga, Y., Hashimoto, K., and Shibauchi, T.

Subjects

Condensed Matter - Superconductivity

Abstract

The paramagnetic spin-triplet superconductor UTe$_2$ has attracted significant attention because of its exotic superconducting properties including an extremely high upper critical field and possible chiral superconducting states. Recently, ultraclean single crystals of UTe$_2$ have become available, and thus measurements on these crystals are crucial to elucidate the intrinsic superconducting properties. Here, we report the thermodynamic critical field $H_{\rm c}$, the lower critical field $H_{\rm c1}$, and the upper critical field $H_{\rm c2}$ at low fields of these high-quality single crystals. From the comparison of the anisotropies in $H_{\rm c1}$ and $H_{\rm c2}$, we find that the experimental $H_{\rm c1}$ values with the magnetic field along $b$- and $c$-axes are anomalously enhanced, showing unusual low-temperature upturns. We propose an effect of the strong Ising-like ferromagnetic fluctuations on the vortex line energy as the origin of the anisotropic enhancement of $H_{\rm c1}$., Comment: 7 pages, 6 figures

Published

2023

8. Stabilization of superconductivity by metamagnetism in an easy-axis magnetic field on UTe$_2$

Author

Tokiwa, Y., Opletal, P., Sakai, H., Kubo, K., Yamamoto, E., Kambe, S., Kimata, M., Awaji, S., Sasaki, T., Aoki, D., Tokunaga, Y., and Haga, Y.

Subjects

Condensed Matter - Superconductivity, Condensed Matter - Strongly Correlated Electrons

Abstract

Influence of metamagnetism on superconductivity is studied for the field along an easy $a$-axis by AC magnetic susceptibility, magnetization, and magnetocaloric effect (MCE) in UTe$_2$. The improvement of crystal quality leads to an upward curvature of $T_c$($B$) above 6 T, that results in a largely enhanced upper critical field of 12 T. The entropy analysis also shows a metamagnetic crossover around 6 T. The sharp negative peak in MCE below $T_c$ indicates that the crossover becomes a transition of first-order character in the superconducting state. Our results shows that metamagnetism induces a transition inside the superconducting phase and stabilizes the superconductivity for the field along the easy axis., Comment: Submitted to PRL

Published

2022

9. Field Induced Multiple Superconducting Phases in UTe2 along Hard Magnetic Axis

Author

Sakai, H., Tokiwa, Y., Opletal, P., Kimata, M., Awaji, S., Sasaki, T., Aoki, D., Kambe, S., Tokunaga, Y., and Haga, Y.

Subjects

Condensed Matter - Superconductivity, Condensed Matter - Strongly Correlated Electrons

Abstract

The superconducting (SC) phase diagram in uranium ditelluride is explored under magnetic fields ($H$) along the hard magnetic b-axis using a high-quality single crystal with $T_{\rm c} = 2.1$ K. Simultaneous electrical resistivity and AC magnetic susceptibility measurements discern low- and high-field SC (LFSC and HFSC, respectively) phases with contrasting field-angular dependence. Crystal quality increases the upper critical field of the LFSC phase, but the $H^{\ast}$ of $\sim$15 T, at which the HFSC phase appears, is always the same through the various crystals. A phase boundary signature is also observed inside the LFSC phase near $H^{\ast}$, indicating an intermediate SC phase characterized by small flux pinning forces., Comment: 8 pages, 10 figures (including the Supplementary Materials, revision 2)

Published

2022

10. A randomized, double-blind, placebo-controlled phase II study of olanzapine-based prophylactic antiemetic therapy for delayed and persistent nausea and vomiting in patients with HER2-positive or HER2-low breast cancer treated with trastuzumab deruxtecan: ERICA study (WJOG14320B)

Author

Sakai, H., Tsurutani, J., Ozaki, Y., Ishiguro, H., Nozawa, K., Yamanaka, T., Aogi, K., Matsumoto, K., Iwasa, T., Tokiwa, M., Tsuneizumi, M., Miyoshi, Y., Kitagawa, C., Yamamoto, M., Takano, Y., Imamura, C.K., Chiba, Y., Takiguchi, D., Ezumi, T., and Takano, T.

Published

2025

11. Structural 130-K Phase Transition and Emergence of a Two-Ion Kondo State in HT-Ce$_2$Rh$_2$Ga Explored by $^{69,71}$Ga Nuclear Quadrupole Resonance

Author

Yamamoto, Sh., Fujii, T., Luther, S., Yasuoka, H., Sakai, H., Bärtl, F., Ranjith, K. M., Rosner, H., Wosnitza, J., Strydom, A. M., Kühne, H., and Baenitz, M.

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

We have studied the microscopic magnetic properties, the nature of the 130-K phase transition, and the ground state in the recently synthesized compound Ce$_2$Rh$_2$Ga by use of $^{69,71}$Ga nuclear quadrupole resonance (NQR). The NQR spectra clearly show an unusual phase transition at $T_t$ $\sim$ 130 K yielding a splitting of the high-temperature single NQR line into two clearly resolved NQR lines, providing evidence for two crystallographically inequivalent Ga sites. The NQR frequencies are in good agreement with fully-relativistic calculations of the band structure. Our NQR results indicate the absence of magnetic or charge order down to 0.3 K. The temperature dependence of the spin-lattice relaxation rate, 1/$T_1$, shows three distinct regimes, with onset temperatures at $T_t$ and 2 K. The temperature-independent 1/$T_1$, observed between $T_t$ and 2 K, crosses over to a Korringa process, 1/$T_1$ $\propto$ $T$, below $\sim$ 2 K, which evidences a rare two-ion Kondo scenario: the system goes into a dense Kondo coherent state at 2.0 and 0.8 K for the two different Ga sites., Comment: 12 pages, 7 figures

Published

2022

12. Field-tunable Weyl points and large anomalous Hall effects in degenerate magnetic semiconductor EuMg$_2$Bi$_2$

Author

Kondo, M., Ochi, M., Kurihara, R., Miyake, A., Yamasaki, Y., Tokunaga, M., Nakao, H., Kuroki, K., Kida, T., Hagiwara, M., Murakawa, H., Hanasaki, N., and Sakai, H.

Subjects

Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Materials Science

Abstract

Magnets, with topologically-nontrivial Dirac/Weyl points, have recently attracted significant attention owing to the unconventional physical properties, such as large anomalous Hall effects. However, they typically have a high carrier density and complicated band structure near the Fermi energy. In this study, we report degenerate magnetic semiconductor EuMg$_2$Bi$_2$, which exhibits a single valley at the $\Gamma$ point, where the field-tunable Weyl points form via the magnetic exchange interaction with the local Eu spins. By the high-field measurements on high-quality single crystals, we observed the quantum oscillations in resistivity, elastic constant, and surface impedance, which enabled us to determine the position of the Fermi energy. In combination with the first-principles calculation, we revealed that the Weyl points are located in the vicinity of the Fermi energy when the Eu spins are fully polarized. Furthermore, we observed large anomalous Hall effect (Hall angle $\Theta_{\mathrm{AH}}\sim0.07$) in the forced ferromagnetic phase, which is consistent with this field variation of band structure., Comment: 18 pages, 4 figures

Published

2022

13. Change of superconducting character in UTe2induced by magnetic field

Author

Kinjo, K., Fujibayashi, H., Kitagawa, S., Ishida, K., Tokunaga, Y., Sakai, H., Kambe, S., Nakamura, A., Shimizu, Y., Homma, Y., Li, D. X., Honda, F., Aoki, D., Hiraki, K., Kimata, M., and Sasaki, T.

Subjects

Condensed Matter - Superconductivity, Condensed Matter - Strongly Correlated Electrons

Abstract

UTe2 is a recently discovered spin-triplet superconductor. One of the characteristic features of UTe2 is a magnetic field (H)-boosted superconductivity above 16 T when H is applied exactly parallel to the b axis. To date, this superconducting (SC) state has not been thoroughly investigated, and the SC properties as well as the spin state of this high-H SC (HHSC) phase are not well understood. In this study, we performed AC magnetic susceptibility and nuclear magnetic resonance (NMR) measurements and found that, up to 24.8 T, the HHSC state is intrinsic to UTe2 and quite sensitive to the H angle, and that its SC character is different from that in the low-H SC (LHSC) state. The dominant spin component of the spin-triplet pair is along the a axis in the LHSC state but is changed in the HHSC state along the b axis. Our results indicate that H-induced multiple SC states originate from the remaining spin degrees of freedom., Comment: 6 pages, 3 figures, 2 tables

Published

2022

14. Measurement of Spin Correlation Coefficient Cy,y3 for Proton-Cy,y3He Elastic Scattering

Author

Watanabe, A., Nakai, S., Sekiguchi, K., Goto, S., Hatanaka, K., Hirai, Y., Ino, T., Inomoto, D., Inoue, M., Ishikawa, S., Itoh, M., Kanda, H., Kasahara, H., Maeda, Y., Miki, K., Nonaka, K., Ong, H. J., Oshiro, H., Sakai, D., Sakai, H., Shibuya, S., Tran, D. T., Umetsu, H., Utsuki, Y., and Wakasa, T.

Published

2024

15. Effect of uranium deficiency on normal and superconducting properties in unconventional superconductor UTe$_2$

Author

Haga, Y., Opletal, P., Tokiwa, Y., Yamamoto, E., Tokunaga, Y., Kambe, S., and Sakai, H.

Subjects

Condensed Matter - Superconductivity, Condensed Matter - Strongly Correlated Electrons

Abstract

Single crystals of the unconventional superconductor UTe$_2$ have been grown in various conditions which result in different superconducting transition temperature as well as normal state properties. Stoichiometry of the samples has been characterized by the single-crystal X-ray crystallography and electron microprobe analyses. Superconducting samples are nearly stoichiometric within an experimental error of about 1 \%, while non-superconducting sample significantly deviates from the ideal composition. The superconducting UTe$_2$ showed that the large density of states was partially gapped in the normal state, while the non-superconducting sample is characterized by the relatively large electronic specific heat as reported previously., Comment: 8 pages, 6 figures

Published

2021

16. Anomalous Nernst Effect in Nonmagnetic Nodal Line Semimetal PbTaSe$_2$

Author

Yokoi, K., Murakawa, H., Sakai, H., and Hanasaki, N.

Subjects

Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Materials Science

Abstract

PbTaSe$_2$ is a unique topological material, in which the number of nodal lines is expected to change at the structural transition between the lower temperature/pressure "L" phase and the higher temperature/pressure "H" phase. We report the anomalous Nernst effect attributed to the Berry curvature of nodal lines and its change with the structural transition. In the L phase, the Nernst coefficient ($S_{yx}$) shows the step-like magnetic field dependence reminiscent of the anomalous Nernst effect of nonmagnetic Dirac/Weyl semimetals. By applying hydrostatic pressure, we discovered that the amplitude of the anomalous component significantly decreases at the transition to the H phase, which might correspond to the partial annihilation of nodal line structures., Comment: 29 page, 14 figures

Published

2021

17. Chiral superconductivity in UTe2 probed by anisotropic low-energy excitations

Author

Ishihara, K., Roppongi, M., Kobayashi, M., Mizukami, Y., Sakai, H., Haga, Y., Hashimoto, K., and Shibauchi, T.

Subjects

Condensed Matter - Superconductivity

Abstract

Chiral spin-triplet superconductivity is a topologically nontrivial pairing state with broken time-reversal symmetry, which can host Majorana quasiparticles. The recently discovered heavy-fermion superconductor UTe$_2$ exhibits peculiar properties of spin-triplet pairing, and the possible chiral state has been actively discussed. However, the symmetry and nodal structure of its order parameter in the bulk, which determine the Majorana surface states, remains controversial. Here we focus on the number and positions of superconducting gap nodes in the ground state of UTe$_2$. Our magnetic penetration depth measurements for three field orientations in the Meissner state reveal the power-law temperature dependence with exponents nearly equal to 2 or less than 2, which excludes single-component spin-triplet states. The anisotropy of low-energy quasiparticle excitations indicates multiple point nodes near the $k_y$- and $k_z$-axes, evidencing that the order parameter has multiple components in a chiral complex form. We find that most consistent is a chiral $B_{3u}+iA_u$ non-unitary state, which provides fundamentals of the topological properties in UTe$_2$., Comment: 40 pages, 17 figures

Published

2021

18. Association between skin toxicity and efficacy of necitumumab in squamous non-small-cell lung cancer: a pooled analysis of two randomized clinical trials-SQUIRE and JFCM

Author

Watanabe, S., Yoshioka, H., Sakai, H., Hotta, K., Takenoyama, M., Yamada, K., Sugawara, S., Takiguchi, Y., Hosomi, Y., Tomii, K., Niho, S., Nishio, M., Kato, T., Takahashi, T., Ebi, H., Aono, M., Yamamoto, N., Ohe, Y., and Nakagawa, K.

Published

2024

19. Proton-$\rm ^3He$ elastic scattering at intermediate energies

Author

Watanabe, A., Nakai, S., Wada, Y., Sekiguchi, K., Deltuva, A., Akieda, T., Etoh, D., Inoue, M., Inoue, Y., Kawahara, K., Kon, H., Miki, K., Mukai, T., Sakai, D., Shibuya, S., Shiokawa, Y., Taguchi, T., Umetsu, H., Utsuki, Y., Watanabe, M., Goto, S., Hatanaka, K., Hirai, Y., Ino, T., Inomoto, D., Inoue, A., Ishikawa, S., Itoh, M., Kanda, H., Kasahara, H., Kobayashi, N., Maeda, Y., Mitsumoto, S., Nakamura, S., Nonaka, K., Ong, H. J., Oshiro, H., Otake, Y., Sakai, H., Taketani, A., Tamii, A., Tran, D. T., Wakasa, T., Wakabayashi, Y., and Wakui, T.

Subjects

Nuclear Experiment, Nuclear Theory

Abstract

We present a precise measurement of the cross section, proton and $\rm ^3He$ analyzing powers, and spin correlation coefficient $C_{y,y}$ for $p$-$\rm ^3He$ elastic scattering near 65 MeV, and a comparison with rigorous four-nucleon scattering calculations based on realistic nuclear potentials and a model with $\Delta$-isobar excitation. Clear discrepancies are seen in some of the measured observables in the regime around the cross section minimum. Theoretical predictions using scaling relations between the calculated cross section and the $\rm ^3 He$ binding energy are not successful in reproducing the data. Large sensitivity to the $NN$ potentials and rather small $\Delta$-isobar effects in the calculated cross section are noticed as different features from those in the deuteron-proton elastic scattering. The results obtained above indicate that $p$-$\rm ^3He$ scattering at intermediate energies is an excellent tool to explore nuclear interactions not accessible by three-nucleon scattering., Comment: 22 pages, 6 figures

Published

2021

20. $^{181}$Ta Nuclear quadrupole resonance study of non-centrosymmetric superconductor PbTaSe$_2$

Author

Yokoi, K., Yashima, M., Murakawa, H., Mukuda, H., Yamauchi, K., Oguchi, T., Sakai, H., and Hanasaki, N.

Subjects

Condensed Matter - Superconductivity

Abstract

We report on a pure $^{181}$Ta-nuclear quadrupole resonance (NQR) measurement of PbTaSe$_2$ at zero magnetic field, which has the advantage of directly probing the intrinsic superconducting phase and electronic states of the TaSe$_2$ layer. We observed the $^{181}$Ta-NQR spectrum of the intrinsic structure with space group $P6$-$m2$, which agrees well with density functional theory (DFT) calculations. The nuclear spin relaxation rate ($1/T_1$) shows an exponential decrease well below $T_{\rm_c}$, indicating that the superconducting state is fully gapped in the framework of Bardeen-Cooper-Schrieffer (BCS) theory. The gap size obtained by $^{181}$Ta-NQR was smaller than the value in previous reports, which may imply that the Fermi surfaces composed of Ta-5$d$ orbitals, where the average pairing interactions are expected to be weaker than in BCS model, are primarily probed. The temperature dependence of $1/T_1$ below $T_{\rm_c}$ can be reproduced well by the superposition of quadrupole and magnetic relaxation mechanisms, together with the distribution of superconducting gap size inherent to multiple Fermi surfaces theoretically proposed in PbTaSe$_2$., Comment: 14 pages, 4 figures. Accepted in Physical Review B

Published

2020

21. The parity-transfer $({}^{16}{\rm O},{}^{16}{\rm F}(0^-,{\rm g.s.}))$ reaction as a probe of isovector $0^-$ states in nuclei

Author

Dozono, M., Uesaka, T., Fukuda, N., Ichimura, M., Inabe, N., Kawase, S., Kisamori, K., Kiyokawa, Y., Kobayashi, K., Kobayashi, M., Kubo, T., Kubota, Y., Lee, C. S., Matsushita, M., Michimasa, S., Miya, H., Ohkura, A., Ota, S., Sagawa, H., Sakaguchi, S., Sakai, H., Sasano, M., Shimoura, S., Shindo, Y., Stuhl, L., Suzuki, H., Tabata, H., Takaki, M., Takeda, H., Tokieda, H., Wakasa, T., Yako, K., Yanagisawa, Y., Yasuda, J., Yokoyama, R., Yoshida, K., and Zenihiro, J.

Subjects

Nuclear Experiment, Nuclear Theory

Abstract

The parity-transfer $({}^{16}{\rm O},{}^{16}{\rm F}(0^-,{\rm g.s.}))$ reaction is presented as a new probe for investigating isovector $0^-$ states in nuclei. The properties of $0^-$ states provide a stringent test of the threshold density for pion condensation in nuclear matter. Utilizing a $0^+ \rightarrow 0^-$ transition in the projectile, the parity-transfer reaction transfers an internal parity to a target nucleus, resulting in a unique sensitivity to unnatural-parity states. Consequently, the selectivity for $0^-$ states is higher than in other reactions employed to date. The probe was applied to a study of the $0^-$ states in ${}^{12}{\rm B}$ via the ${}^{12}{\rm C}({}^{16}{\rm O},{}^{16}{\rm F}(0^-,{\rm g.s.}))$ reaction at $247~{\rm MeV/u}$. The excitation energy spectra were deduced by detecting the ${}^{15}{\rm O}+p$ pair produced in the decay of the ${}^{16}{\rm F}$ ejectile. A known $0^-$ state at $E_x = 9.3~{\rm MeV}$ was observed with an unprecedentedly high signal-to-noise ratio. The data also revealed new candidates of $0^-$ states at $E_x=6.6 \pm 0.4$ and $14.8 \pm 0.3~{\rm MeV}$. The results demonstrate the high efficiency of $0^-$ state detection by the parity-transfer reaction., Comment: Submitted to Phys. Rev. Lett

Published

2020

22. Switching of band inversion and topological surface states by charge density wave

Author

Mitsuishi, N., Sugita, Y., Bahramy, M. S., Kamitani, M., Sonobe, T., Sakano, M., Shimojima, T., Takahashi, H., Sakai, H., Horiba, K., Kumigashira, H., Taguchi, K., Miyamoto, K., Okuda, T., Ishiwata, S., Motome, Y., and Ishizaka, K.

Subjects

Condensed Matter - Materials Science

Abstract

Topologically nontrivial materials host protected edge states associated with the bulk band inversion through the bulk-edge correspondence. Manipulating such edge states is highly desired for developing new functions and devices practically using their dissipation-less nature and spin-momentum locking. Here we introduce a transition-metal dichalcogenide VTe$_2$, that hosts a charge density wave (CDW) coupled with the band inversion involving V3$d$ and Te5$p$ orbitals. Spin- and angle-resolved photoemission spectroscopy with first-principles calculations reveal the huge anisotropic modification of the bulk electronic structure by the CDW formation, accompanying the selective disappearance of Dirac-type spin-polarized topological surface states that exist in the normal state. Thorough three dimensional investigation of bulk states indicates that the corresponding band inversion at the Brillouin zone boundary dissolves upon CDW formation, by transforming into anomalous flat bands. Our finding provides a new insight to the topological manipulation of matters by utilizing CDWs' flexible characters to external stimuli., Comment: 46 pages, 6 main figures, 12 supplementary figures

Published

2020

23. Nanoscale imaging of unusual photo-acoustic waves in thin flake VTe$_2$

Author

Nakamura, A., Shimojima, T., Chiashi, Y., Kamitani, M., Sakai, H., Ishiwata, S., Li, H., and Ishizaka, K.

Subjects

Condensed Matter - Materials Science

Abstract

Controlling acoustic phonons, the carriers of sound and heat, has been attracting great attention toward the manipulation of sonic and thermal properties in nanometric devices. In particular, the photo-acoustic effect using ultrafast optical pulses has a promising potential to optically manipulate phonons in picoseconds time regime. However, its mechanism has been so far mostly based on the commonplace thermoelastic expansion in isotropic media, limiting the spectrum of potential applications. We investigate a conceptually new mechanism of photo-acoustic effect involving the structural instability, by utilizing a transition-metal dichalcogenide VTe$_2$ with the ribbon-type charge-density-wave (CDW). Ultrafast electron microscope imaging and diffraction measurements reveal the generation and propagation of unusual acoustic waves in the nanometric thin plate associated with the optically induced instantaneous charge-density-wave dissolution. Our results highlight the capability of photo-induced structural instability as a source of coherent acoustic waves., Comment: 6 pages, 5 figures

Published

2020

24. Field-induced spin reorientation in the antiferromagnetic Dirac material EuMnBi$_2$ revealed by neutron and resonant x-ray diffraction

Author

Masuda, H., Sakai, H., Takahashi, H., Yamasaki, Y., Nakao, A., Moyoshi, T., Nakao, H., Murakami, Y., Arima, T., and Ishiwata, S.

Subjects

Condensed Matter - Materials Science, Condensed Matter - Strongly Correlated Electrons

Abstract

Field-dependent magnetic structure of a layered Dirac material EuMnBi$_2$ was investigated in detail by the single crystal neutron diffraction and the resonant x-ray magnetic diffraction techniques. On the basis of the reflection conditions in the antiferromagnetic phase at zero field, the Eu moments were found to be ordered ferromagnetically within the $ab$ plane and stacked antiferromagnetically along the $c$ axis in the sequence of up-up-down-down. Upon the spin-flop transition under the magnetic field parallel to the $c$ axis, the Eu moments are reoriented from the $c$ to the $a$ or $b$ directions forming two kinds of spin-flop domains, whereas the antiferromagnetic structure of the Mn sublattice remains intact as revealed by the quantitative analysis of the change in the neutron diffraction intensities. The present study provides a concrete basis to discuss the dominant role of the Eu sublattice on the enhanced two-dimensionality of the Dirac fermion transport in EuMnBi$_2$., Comment: 16 pages, 5 figures, accepted in PRB

Published

2020

25. Ferroelectric atomic displacement in multiferroic tetragonal perovskite Sr$_{1/2}$Ba$_{1/2}$MnO$_3$

Author

Okuyama, D., Yamauchi, K., Sakai, H., Taguchi, Y., Tokura, Y., Sugimoto, K., Sato, T. J., and Oguchi, T.

Subjects

Condensed Matter - Materials Science

Abstract

We investigate the crystal structure in multiferroic tetragonal perovskite Sr$_{1/2}$Ba$_{1/2}$MnO$_3$ with high accuracy of the order of 10$^{-3}$ Angstrom for an atomic displacement. The large atomic displacement for Mn ion from the centerosymmetric position, comparable with the off-centering distortion in the tetragonal ferroelectric BaTiO$_3$, is observed in the ferroelectric phase ($T_\mathrm{N}$ $\leq$ $T$ $\leq$ $T_\mathrm{C}$). In stark contrast, in the multiferroic phase ($T$ $\leq$ $T_\mathrm{N}$), the atomic displacement for Mn ion is suppressed, but those for O ions are enlarged. The atomic displacements in the polar crystal structures are also analyzed in terms of the ferroelectric modes. In the ferroelectric phase, the atomic displacements are decomposed into dominant positive Slater, negative Last, and small positive Axe modes. The suppression of Slater and Last modes, the sign change of Last mode, and the enlargement of Axe mode are found in the multiferroic phase. The ferroelectric distortion is well reproduced by a first-principles calculation based on Berry phase method, providing an additional information on competing mechanisms to induce the polarization, electronic $p$-$d$ hybridization vs. magnetic exchange-striction., Comment: 8 pages, 5 figures, and 4 tables

Published

2020

26. Large Enhancement of Thermoelectric Efficiency Due to a Pressure-Induced Lifshitz Transition in SnSe

Author

Nishimura, T., Sakai, H., Mori, H., Akiba, K., Usui, H., Ochi, M., Kuroki, K., Miyake, A., Tokunaga, M., Uwatoko, Y., Katayama, K., Murakawa, H., and Hanasaki, N.

Subjects

Condensed Matter - Materials Science

Abstract

Lifshitz transition, a change in Fermi surface topology, is likely to greatly influence exotic correlated phenomena in solids, such as high-temperature superconductivity and complex magnetism. However, since the observation of Fermi surfaces is generally difficult in the strongly correlated systems, a direct link between the Lifshitz transition and quantum phenomena has been elusive so far. Here, we report a marked impact of the pressure-induced Lifshitz transition on thermoelectric performance for SnSe, a promising thermoelectric material without strong electron correlation. By applying pressure up to 1.6 GPa, we have observed a large enhancement of thermoelectric power factor by more than 100% over a wide temperature range (10-300 K). Furthermore, the high carrier mobility enables the detection of quantum oscillations of resistivity, revealing the emergence of new Fermi pockets at ~0.86 GPa. The observed thermoelectric properties linked to the multi-valley band structure are quantitatively reproduced by first-principles calculations, providing novel insight into designing the SnSe-related materials for potential valleytronic as well as thermoelectric applications., Comment: 13 pages, 4 figures

Published

2020

27. Bulk quantum Hall effect of spin-valley-coupled Dirac fermions in a polar antiferromagnet BaMnSb$_2$

Author

Sakai, H., Fujimura, H., Sakuragi, S., Ochi, M., Kurihara, R., Miyake, A., Tokunaga, M., Kojima, T., Hashizume, D., Muro, T., Kuroda, K., Kondo, T., Kida, T., Hagiwara, M., Kuroki, K., Kondo, M., Tsuruda, K., Murakawa, H., and Hanasaki, N.

Subjects

Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Materials Science

Abstract

Unconventional features of relativistic Dirac/Weyl quasi-particles in topological materials are most evidently manifested in the 2D quantum Hall effect (QHE), whose variety is further enriched by their spin and/or valley polarization. Although its extension to three dimensions has been long-sought and inspired theoretical proposals, material candidates have been lacking. Here we have discovered valley-contrasting spin-polarized Dirac fermions in a multilayer form in bulk antiferromagnet BaMnSb$_2$, where the out-of-plane Zeeman-type spin splitting is induced by the in-plane inversion symmetry breaking and spin-orbit coupling (SOC) in the distorted Sb square net. Furthermore, we have observed well-defined quantized Hall plateaus together with vanishing interlayer conductivity at low temperatures as a hallmark of the half-integer QHE in a bulk form. The Hall conductance of each layer is found to be nearly quantized to $2(N+1/2)e^2/h$ with $N$ being the Landau index, which is consistent with two spin-polarized Dirac valleys protected by the strong spin-valley coupling., Comment: 14 pages, 4 figures. Accepted in Phys. Rev. B (Rapid Communication)

Published

2020

28. Measurement of 3He analyzing power for p-3He scattering using the polarized 3He target

Author

Watanabe, A., Nakai, S., Sekiguchi, K., Akieda, T., Etoh, D., Inoue, M., Inoue, Y., Kawahara, K., Kon, H., Miki, K., Mukai, T., Sakai, D., Shibuya, S., Shiokawa, Y., Taguchi, T., Umetsu, H., Utsuki, Y., Wada, Y., Watanabe, M., Itoh, M., Ino, T., Wakui, T., Hatanaka, K., Kanda, H., Ong, H. J., Tran, D. T., Goto, S., Hirai, Y., Inomoto, D., Kasahara, H., Mitsumoto, S., Oshiro, H., Wakasa, T., Maeda, Y., Nonaka, K., Sakai, H., and Uesaka, T.

Subjects

Nuclear Experiment

Abstract

Proton-3He scattering is one of the good probes to study the T=3/2 channel of three--nucleon forces. We have measured 3He analyzing powers for p-3He elastic scattering with the polarized 3He target at 70 and 100 MeV. The data are compared with the theoretical predictions based on the modern nucleon--nucleon potentials. Large discrepancies are found between the data and the calculations at the angles where the 3He analyzing power takes the minimum and maximum values, which are not explained by taking into account Delta-isobar degrees of freedom., Comment: 7pages, 3 figures Submission to SciPost

Published

2019

29. Orbitally defined field-induced electronic state in a Kondo lattice

Author

Lesseux, G. G., Sakai, H., Hattori, T., Tokunaga, Y., Kambe, S., Kuhns, P. L., Reyes, A. P., Thompson, J. D., Pagliuso, P. G., and Urbano, R. R.

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

CeRhIn$_{5}$ is a Kondo-lattice prototype in which a magnetic field B$\bf{^{\ast}\simeq}$ 30 T induces an abrupt Fermi-surface (FS) reconstruction and pronounced in-plane electrical transport anisotropy all within its antiferromagnetic state. Though the antiferromagnetic order at zero field is well-understood, the origin of an emergent state at B$^{\ast}$ remains unknown due to challenges inherent to probing states microscopically at high fields. Here, we report low-temperature Nuclear Magnetic Resonance (NMR) measurements revealing a discontinuous decrease in the $^{115}$In formal Knight shift, without changes in crystal or magnetic structures, of CeRhIn$_{5}$ at fields spanning B$^{\ast}$. We show that the emergent state above B$^{\ast}$ results from a change in Ce's 4f orbitals that arises from field-induced evolution of crystal-electric field (CEF) energy levels. This change in orbital character enhances hybridisation between the 4f and the conduction electrons (c.e.) that leads ultimately to an itinerant quantum-critical point at B$\bf{_{c0} \simeq}$ 50 T.

Published

2019

30. Development of digital electronics for the search of SHE nuclei using GARIS-II/III at RIKEN

Author

Brionnet, P., Grzywacz, R.K., Kaji, D., King, T.T., Niwase, T., Morimoto, K., Rykaczewski, K.P., and Sakai, H.

Published

2023

31. ${}^{239}$Pu nuclear magnetic resonance in the candidate topological insulator PuB$_4$

Author

Dioguardi, A. P., Yasuoka, H., Thomas, S. M., Sakai, H., Cary, S. K., Kozimor, S. A., Albrecht-Schmitt, T. E., Choi, H. C., Zhu, J. -X., Thompson, J. D., Bauer, E. D., and Ronning, F.

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

We present a detailed nuclear magnetic resonance (NMR) study of ${}^{239}$Pu in bulk and powdered single-crystal plutonium tetraboride (PuB$_4$), which has recently been investigated as a potential correlated topological insulator. This study constitutes the second-ever observation of the ${}^{239}$Pu NMR signal, and provides unique on-site sensitivity to the rich $f$-electron physics and insight into the bulk gap-like behavior in PuB$_4$. The ${}^{239}$Pu NMR spectra are consistent with axial symmetry of the shift tensor showing for the first time that ${}^{239}$Pu NMR can be observed in an anisotropic environment and up to room temperature. The temperature dependence of the ${}^{239}$Pu shift, combined with a relatively long spin-lattice relaxation time ($T_1$), indicate that PuB$_4$ adopts a non-magnetic state with gap-like behavior consistent with our density functional theory (DFT) calculations. The temperature dependencies of the NMR Knight shift and $T_1^{-1}$--microscopic quantities sensitive only to bulk states--imply bulk gap-like behavior confirming that PuB$_4$ is a good candidate topological insulator. The large contrast between the ${}^{239}$Pu orbital shifts in the ionic insulator PuO$_2$ ($\sim$~+24.7~\%) and PuB$_4$ ($\sim$~-0.5~\%) provides a new tool to investigate the nature of chemical bonding in plutonium materials., Comment: Accepted to PRB Dec. 14, 2018

Published

2018

32. How different is the core of $^{25}$F from $^{24}$O$_{g.s.}$?

Author

Tang, T. L., Uesaka, T., Kawase, S., Beaumel, D., Dozono, M., Fujii, T., Fukuda, N., Fukunaga, T., Galindo-Uribarri, A., Hwang, S. H., Inabe, N., Kameda, D., Kawahara, T., Kim, W., Kisamori, K., Kobayashi, M., Kubo, T., Kubota, Y., Kusaka, K., Lee, C. S., Maeda, Y., Matsubara, H., Michimasa, S., Miya, H., Noro, T., Obertelli, A., Ogata, K., Ota, S., Padilla-Rodal, E., Sakaguchi, S., Sakai, H., Sasano, M., Shimoura, S., Stepanyan, S. S., Suzuki, H., Takaki, M., Takeda, H., Tokieda, H., Wakasa, T., Wakui, T., Yako, K., Yanagisawa, Y., Yasuda, J., Yokoyama, R., Yoshida, K., and Zenihiro, J.

Subjects

Nuclear Experiment, Nuclear Theory

Abstract

The neutron-shell structure of $^{25}$F was studied using quasi-free (p,2p) knockout reaction at 270A MeV in inverse kinematics. The sum of spectroscopic factors of $\pi$0d$_{5/2}$ orbital is found to be $1.0 \pm 0.3$. However, the spectroscopic factor for the ground-state to ground-state transition ($^{25}$F, $^{24}$O$_{g.s.}$) is only $0.36\pm 0.13$, and $^{24}$O excited states are produced from the 0d$_{5/2}$ proton knockout. The result shows that the $^{24}$O core of $^{25}$F nucleus significantly differs from a free $^{24}$O nucleus, and the core consists of 35% $^{24}$O$_{g.s}$. and 65% excited $^{24}$O., Comment: 5 pages, 5 figures

Published

2018

33. Negative-pressure-induced helimagnetism in ferromagnetic cubic perovskites Sr$_{1-x}$Ba$_{x}$CoO$_{3}$

Author

Sakai, H., Yokoyama, S., Kuwabara, A., White, J. S., Canévet, E., Rønnow, H. M., Koretsune, T., Arita, R., Miyake, A., Tokunaga, M., Tokura, Y., and Ishiwata, S.

Subjects

Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Materials Science

Abstract

Helimagnetic materials are identified as promising for novel spintronic applications. Since helical spin order is manifested as a compromise of competing magnetic exchange interactions, its emergence is limited by unique constraints imposed by the crystalline lattice and the interaction geometries, as exemplified by the multiferroic perovskite manganites with large orthorhombic distortion. Here we show that a simple cubic perovskite SrCoO$_3$ with room-temperature ferromagnetism has the potential to host helimagnetic order upon isotropic lattice expansion. Increasing the Ba content $x$ in Sr$_{1-x}$Ba$_x$CoO$_3$ continuously expands the cubic lattice, eventually suppressing the ferromagnetic order near $x$=0.4, where helimagnetic correlations are observed as incommensurate diffuse magnetic scattering by neutron diffraction measurements. The emergence of helimagnetism is semi-quantitatively reproduced by first-principles calculations, leading to the conjecture that a simple cubic lattice with strong $d$-$p$ hybridisation can exhibit a variety of novel magnetic phases originating from competing exchange interactions., Comment: 14 pages, 4 figures, To appear in Phys. Rev. Materials

Published

2018

34. Impact of antiferromagnetic order on Landau level splitting of quasi-two-dimensional Dirac fermions in EuMnBi$_2$

Author

Masuda, H., Sakai, H., Tokunaga, M., Ochi, M., Takahashi, H., Akiba, K., Miyake, A., Kuroki, K., Tokura, Y., and Ishiwata, S.

Subjects

Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Materials Science

Abstract

We report spin-split Landau levels of quasi-two-dimensional Dirac fermions in a layered antiferromagnet EuMnBi$_2$, as revealed by interlayer resistivity measurements in a tilted magnetic field up to $\sim$35 T. The amplitude of Shubnikov-de Haas (SdH) oscillation in interlayer resistivity is strongly modulated by changing the tilt angle of the field, i.e., the Zeeman-to-cyclotron energy ratio. The effective $g$ factor estimated from the tilt angle, where the SdH oscillation exhibits a phase inversion, differs by approximately 50% between two antiferromagnetic phases. This observation signifies a marked impact of the magnetic order of Eu sublattice on the Dirac-like band structure. The origin may be sought in strong exchange coupling with the local Eu moments, as verified by the first-principles calculation., Comment: 13 pages, 4 figures, submitted

Published

2018

35. CFT approach to the $q$-Painlev\'e VI equation

Author

Jimbo, M., Nagoya, H., and Sakai, H.

Subjects

Mathematical Physics, Mathematics - Classical Analysis and ODEs

Abstract

Iorgov, Lisovyy, and Teschner established a connection between isomonodromic deformation of linear differential equations and Liouville conformal field theory at $c=1$. In this paper we present a $q$ analog of their construction. We show that the general solution of the $q$-Painlev\'e VI equation is a ratio of four tau functions, each of which is given by a combinatorial series arising in the AGT correspondence. We also propose conjectural bilinear equations for the tau functions., Comment: 26 pages

Published

2017

36. On the discovery of new elements (IUPAC/IUPAP Provisional Report): Provisional Report of the 2017 Joint Working Group of IUPAC and IUPAP

Author

Hofmann, S, Dmitriev, SN, Fahlander, C, Gates, JM, Roberto, JB, and Sakai, H

Subjects

discovery, IUPAP Commission for Nuclear Physics, IUPAC Inorganic Chemistry Division, naming process, new elements, periodic table, superheavy elements, superheavy nuclei, Transfermium Working Group, trans-organesson, Chemical Sciences, General Chemistry

Abstract

Almost thirty years ago the criteria that are currently used to verify claims for the discovery of a new element were set down by the comprehensive work of a Transfermium Working Group, TWG, jointly established by IUPAC and IUPAP. The recent completion of the naming of the 118 elements in the first seven periods of the Periodic Table of the Elements was considered as an opportunity for a review of these criteria in the light of the experimental and theoretical advances in the field. In late 2016 the Unions decided to establish a new Joint Working Group, JWG, consisting of six members determined by the Unions. A first meeting of the JWG was in May 2017. One year later this report was finished. In a first part the works and conclusions of the TWG and the Joint Working Parties, JWP, deciding on the discovery of the now named elements are summarized. Possible experimental developments for production and identification of new elements beyond the presently known ones are estimated. Criteria and guidelines for establishing priority of discovery of these potential new elements are presented. Special emphasis is given to a description for the application of the criteria and the limits for their applicability.

Published

2018

37. First-line nivolumab + ipilimumab in advanced NSCLC: CheckMate 227 subpopulation analyses in Asian patients

Author

O’Byrne, K.J., Lee, K.H., Kim, S.-W., Park, K., Nishio, M., Sakai, H., Ohe, Y., Fukuhara, T., Kang, J.-H., Daga, H., Yu, C.-J., Hotta, K., Tanaka, H., Takeda, M., Yokoyama, T., Nathan, F.E., and Lee, J.-S.

Published

2022

38. Quantum Hall effect in a bulk antiferromagnet EuMnBi$_2$ with magnetically confined two-dimensional Dirac fermions

Author

Masuda, H., Sakai, H., Tokunaga, M., Yamasaki, Y., Miyake, A., Shiogai, J., Nakamura, S., Awaji, S., Tsukazaki, A., Nakao, H., Murakami, Y., Arima, T. H., Tokura, Y., and Ishiwata, S.

Subjects

Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Materials Science

Abstract

For the innovation of spintronic technologies, Dirac materials, in which the low-energy excitation is described as relativistic Dirac fermions, are one of the most promising systems, because of the fascinating magnetotransport associated with the extremely high mobility. To incorporate Dirac fermions into spintronic applications, their quantum transport phenomena are desired to be manipulated to a large extent by magnetic order in a solid. We here report a bulk half-integer quantum Hall effect in a layered antiferromagnet EuMnBi$_2$, in which field-controllable Eu magnetic order significantly suppresses the interlayer coupling between the Bi layers with Dirac fermions. In addition to the high mobility more than 10,000 cm$^2$/Vs, Landau level splittings presumably due to the lifting of spin and valley degeneracy are noticeable even in a bulk magnet. These results will pave a route to the engineering of magnetically functionalized Dirac materials., Comment: 26 pages, 4 figures, 1 table

Published

2017

39. Critical enhancement of thermopower in a chemically tuned polar semimetal MoTe$_{\bf 2}$

Author

Sakai, H., Ikeura, K., Bahramy, M. S., Ogawa, N., Hashizume, D., Fujioka, J., Tokura, Y., and Ishiwata, S.

Subjects

Condensed Matter - Materials Science, Condensed Matter - Strongly Correlated Electrons

Abstract

Ferroelectrics with spontaneous electric polarization play an essential role in today's device engineering, such as capacitors and memories. Their physical properties are further enriched by suppressing the long-range polar order, as is exemplified by quantum paraelectrics with giant piezoelectric and dielectric responses at low temperatures. Likewise in metals, a polar lattice distortion has been theoretically predicted to give rise to various unusual physical properties. So far, however, a "ferroelectric"-like transition in metals has seldom been controlled and hence its possible impacts on transport phenomena remain unexplored. Here we report the discovery of anomalous enhancement of thermopower near the critical region between the polar and nonpolar metallic phases in 1T'-Mo$_{1-x}$Nb$_{x}$Te$_2$ with a chemically tunable polar transition. It is unveiled from the first-principles calculations and magnetotransport measurements that charge transport with strongly energy-dependent scattering rate critically evolves towards the boundary to the nonpolar phase, resulting in large cryogenic thermopower. Such a significant influence of the structural instability on transport phenomena might arise from the fluctuating or heterogeneous polar metallic states, which would pave a novel route to improving thermoelectric efficiency., Comment: 26 pages, 4 figures

Published

2017

40. Anticorrelation between polar lattice instability and superconductivity in the Weyl semimetal candidate MoTe2

Author

Takahashi, H., Akiba, T., Imura, K., Shiino, T., Deguchi, K., Sato, N. K., Sakai, H., Bahramy, M. S., and Ishiwata, S.

Subjects

Condensed Matter - Superconductivity

Abstract

The relation between the polar structural instability and superconductivity in a Weyl semimetal candidate MoTe2 has been clarified by finely controlled physical and chemical pressure. The physical pressure as well as the chemical pressure, i.e., the Se substitution for Te, enhances the superconducting transition temperature Tc at around the critical pressure where the polar structure transition disappears. From the heat capacity and thermopower measurements, we ascribe the significant enhancement of Tc at the critical pressure to a subtle modification of the phonon dispersion or the semimetallic band structure upon the polar-to-nonpolar transition. On the other hand, the physical pressure, which strongly reduces the interlayer distance, is more effective on the suppression of the polar structural transition and the enhancement of Tc as compared with the chemical pressure, which emphasizes the importance of the interlayer coupling on the structural and superconducting instability in MoTe2., Comment: 5 pages, 4 figures

Published

2017

41. Observation of spin-polarized bands and domain-dependent Fermi arcs in polar Weyl semimetal MoTe$_2$

Author

Sakano, M., Bahramy, M. S., Tsuji, H., Araya, I., Ikeura, K., Sakai, H., Ishiwata, S., Yaji, K., Kuroda, K., Harasawa, A., Shin, S., and Ishizaka, K.

Subjects

Condensed Matter - Materials Science

Abstract

We investigate the surface electronic structures of polar 1T'-MoTe2, the Weyl semimetal candidate realized through the nonpolar-polar structural phase transition, by utilizing the laser angle-resolved photoemission spectroscopy (ARPES) combined with first-principles calculations. Two kinds of domains with different surface band dispersions are observed from a single-crystalline sample. The spin-resolved measurements further reveal that the spin polarizations of the surface and the bulk-derived states show the different domain-dependences, indicating the opposite bulk polarity. For both domains, some segment-like band features resembling the Fermi arcs are clearly observed. The patterns of the arcs present the marked contrast between the two domains, respectively agreeing well with the slab calculation of (0 0 1) and (0 0 -1) surfaces. The present result strongly suggests that the Fermi arc connects the identical pair of Weyl nodes on one side of the polar crystal surface, whereas it connects between the different pairs of Weyl nodes on the other side., Comment: 13 pages, 4 figures

Published

2016

42. Rivaroxaban Monotherapy in Patients With Atrial Fibrillation After Coronary Stenting: Insights From the AFIRE Trial

Author

Yasuda, Satoshi, Ogawa, Hisao, Kimura, Kazuo, Hagiwara, Nobuhisa, Hirayama, Atsushi, Nakamura, Masato, Miyauchi, Katsumi, Ako, Junya, Akao, Masaharu, Kaikita, Koichi, Matoba, Tetsuya, Koretsune, Yukihiro, Hiro, Takafumi, Sumiyoshi, Tetsuya, Kimura, Kazumi, Hashimoto, Yoichiro, Hirano, Teruyuki, Daida, Hiroyuki, Okada, Yasushi, Yamazaki, Tsutomu, Matsui, Kunihiko, Nakamura, A., Tamiya, E., Yamamoto, T., Suetake, S., Noguchi, T., Nakamura, S., Matsumura, A., Kojima, J., Suwa, S., Yamaguchi, H., Kaikita, K., Yasu, T., Nakajima, A., Yamada, T., Arai, H., Hata, Y., Sakanashi, T., Tateishi, H., Nakayama, T., Nozaki, Y., Akao, M., Okumura, Y., Tokue, M., Kuroki, N., Maruyama, Y., Matoba, T., Hagiwara, N., Suzuki, H., Nishida, Y., Ajioka, M., Yumoto, K., Shimizu, S., Aoyama, T., Shimomura, H., Takeda, T., Oshiro, K., Sugishita, N., Shibata, Y., Otonari, T., Kihara, H., Ogawa, H., Ohno, A., Hazama, M., Shimizu, M., Tsukahara, K., Haruta, S., Wakeyama, T., Haruna, T., Ito, M., Fujii, K., Atsuchi, N., Sata, M., Kimura, K., Hasebe, N., Kobayasi, Y., Ohsato, K., Hironaga, K., Naganuma, Y., Anzaki, K., Oiwa, K., Okazaki, S., Nakagawa, Y., Tokuhiro, K., Tanaka, K., Momose, T., Fukushima, Y., Kametani, R., Kawamitsu, K., Saito, Y., Akashi, S., Kumagai, K., Eshima, K., Tobaru, T., Seo, T., Okuhara, K., Kozuma, K., Ikari, Y., Takahashi, T., Michishita, I., Fujikura, H., Momomura, S., Yamamoto, Y., Otomo, K., Matsubara, T., Tashiro, H., Inoue, T., Ishihara, M., Shiojima, I., Tachibana, E., Ako, J., Sumii, K., Yamamoto, N., Ohmura, N., Nakamura, T., Morita, Y., Takahashi, N., Watanabe, K., Fujinaga, H., Maruyama, M., Oka, T., Shirayama, T., Amano, T., Fukui, K., Ando, K., Oshima, S., Kagiyama, S., Teragawa, H., Yuge, M., Ono, S., Koga, T., Fujiu, K., Kuwabara, M., Ohya, Y., Yumoto, Y., Kuji, N., Ikemura, M., Kario, K., Chatani, K., Sato, K., Miyagi, H., Murakami, M., Saito, K., Hoshiga, M., Sato, S., Kubo, N., Sakamoto, Y., Ashida, K., Sakamoto, H., Murasaki, S., Uehara, H., Akasaka, T., Ooba, Y., Nakahara, S., Hanaoka, Y., Nishimiya, T., Tsunoda, R., Onuma, Y., Higuchi, S., Tani, A., Wada, A., Kato, M., Obata, H., Higuchi, Y., Endo, T., Katou, R., Matsunaga, T., Matsuoka, T., Noguchi, H., Usui, M., Hayashi, T., Otsuji, Y., Osaki, T., Zaizen, H., Yoshihara, H., Kadota, K., Hirose, T., Miyazawa, T., Mori, A., Takano, M., Shimizu, W., Wake, M., Oriso, S., Yoshiyama, M., Kakinoki, S., Nishioka, T., Ozaki, T., Nomoto, K., Seki, K., Kawai, K., Ozaki, Y., Miura, S., Kawasaki, M., Funada, R., Dote, K., Nagano, T., Okamoto, S., Kubo, T., Murozono, Y., Owada, T., Doke, T., Matsumura, T., Horiuchi, M., Takaishi, A., Yamamoto, M., Nakashima, H., Munemasa, M., Sakata, Y., Inoue, N., Ota, T., Hamano, Y., Abe, N., Tsubokura, T., Goto, M., Kubota, I., Yano, M., Umetani, K., Date, T., Morimoto, H., Noda, T., Goto, S., Hibi, K., Nakano, A., Hiramitsu, S., Kihara, Y., Sugi, M., Shiba, N., Izumi, D., Sato, T., Tayama, S., Matsui, T., Suzuki, A., Ajiki, K., Oishi, M., Kiryu, M., Ko, T., Ando, H., Miyazaki, S., Kinugawa, T., Otake, H., Kitaoka, H., Hirata, Y., Honda, S., Manita, M., Ishii, Y., Oka, H., Nanba, Y., Nishino, M., Sakamoto, T., Saito, T., Sakai, H., Ichikawa, M., Namiuchi, S., Inoue, K., Komiyama, N., Akashi, Y., Nakamura, Y., Komaru, T., Hosokawa, T., Chikamori, T., Tanaka, H., Arasaki, O., Aonuma, K., Wakasa, Y., Yoshizawa, T., Sugano, T., Yokota, N., Kakutani, A., Suzuki, T., Abe, Y., Kataoka, T., Okayama, H., Yokoi, H., Chin, K., Hasegawa, K., Tomita, H., Honzyo, H., Kawai, H., Yamamoto, K., Morino, Y., Tsujiyama, S., Hamasaki, S., Niijima, Y., Mizuno, Y., Maki, A., Tanabe, K., Murohara, T., Naomi, S., Arikawa, M., Kato, T., Matsumoto, N., Minamino, T., Sairenji, H., Miyamoto, N., Ito, H., Matsuura, Y., Hata, S., Nakatsu, Y., Onodera, T., Yoshimura, M., Amano, H., Tokutake, E., Kasao, M., Moriguchi, M., Tsuji, M., Yamamoto, H., Yanbe, Y., Iwasawa, T., Suzuki, M., and Mori, H.

Published

2021

43. First-line nivolumab plus ipilimumab with two cycles of chemotherapy versus chemotherapy alone (four cycles) in advanced non-small-cell lung cancer: CheckMate 9LA 2-year update

Author

Reck, M., Ciuleanu, T.-E., Cobo, M., Schenker, M., Zurawski, B., Menezes, J., Richardet, E., Bennouna, J., Felip, E., Juan-Vidal, O., Alexandru, A., Sakai, H., Lingua, A., Reyes, F., Souquet, P.-J., De Marchi, P., Martin, C., Pérol, M., Scherpereel, A., Lu, S., Paz-Ares, L., Carbone, D.P., Memaj, A., Marimuthu, S., Zhang, X., Tran, P., and John, T.

Published

2021

44. Observation of the Isovector Giant Monopole Resonance via the Si28(Be10,B*10[1.74 MeV]) Reaction at 100 AMeV

Author

Scott, M, Zegers, RGT, Almus, R, Austin, Sam M, Bazin, D, Brown, BA, Campbell, C, Gade, A, Bowry, M, Galès, S, Garg, U, Harakeh, MN, Kwan, E, Langer, C, Loelius, C, Lipschutz, S, Litvinova, E, Lunderberg, E, Morse, C, Noji, S, Perdikakis, G, Redpath, T, Robin, C, Sakai, H, Sasamoto, Y, Sasano, M, Sullivan, C, Tostevin, JA, Uesaka, T, and Weisshaar, D

Subjects

Mathematical Sciences, Physical Sciences, Engineering, General Physics

Abstract

The (^{10}Be,^{10}B^{*}[1.74  MeV]) charge-exchange reaction at 100  AMeV is presented as a new probe for isolating the isovector (ΔT=1) nonspin-transfer (ΔS=0) response of nuclei, with ^{28}Si being the first nucleus studied. By using a secondary ^{10}Be beam produced by fast fragmentation of ^{18}O nuclei at the NSCL Coupled Cyclotron Facility, applying the dispersion-matching technique with the S800 magnetic spectrometer to determine the excitation energy in ^{28}Al, and performing high-resolution γ-ray tracking with the Gamma-Ray Energy Tracking In-beam Nuclear Array (GRETINA) to identify the 1022-keV γ ray associated with the decay from the 1.74-MeV T=1 isobaric analog state in ^{10}B, a ΔS=0 excitation-energy spectrum in ^{28}Al was extracted. Monopole and dipole contributions were determined through a multipole-decomposition analysis, and the isovector giant dipole resonance and isovector giant monopole resonance (IVGMR) were identified. The results show that this probe is a powerful tool for studying the elusive IVGMR, which is of interest for performing stringent tests of modern density functional theories at high excitation energies and for constraining the bulk properties of nuclei and nuclear matter. The extracted distributions were compared with theoretical calculations based on the normal-modes formalism and the proton-neutron relativistic time-blocking approximation. Calculated cross sections based on these strengths underestimate the data by about a factor of 2, which likely indicates deficiencies in the reaction calculations based on the distorted wave Born approximation.

Published

2017

45. Observation of the Isovector Giant Monopole Resonance via the ^{28}Si(^{10}Be,^{10}B^{*}[1.74  MeV]) Reaction at 100  AMeV.

Author

Scott, M, Zegers, RGT, Almus, R, Austin, Sam M, Bazin, D, Brown, BA, Campbell, C, Gade, A, Bowry, M, Galès, S, Garg, U, Harakeh, MN, Kwan, E, Langer, C, Loelius, C, Lipschutz, S, Litvinova, E, Lunderberg, E, Morse, C, Noji, S, Perdikakis, G, Redpath, T, Robin, C, Sakai, H, Sasamoto, Y, Sasano, M, Sullivan, C, Tostevin, JA, Uesaka, T, and Weisshaar, D

Subjects

General Physics, Physical Sciences

Abstract

The (^{10}Be,^{10}B^{*}[1.74  MeV]) charge-exchange reaction at 100  AMeV is presented as a new probe for isolating the isovector (ΔT=1) nonspin-transfer (ΔS=0) response of nuclei, with ^{28}Si being the first nucleus studied. By using a secondary ^{10}Be beam produced by fast fragmentation of ^{18}O nuclei at the NSCL Coupled Cyclotron Facility, applying the dispersion-matching technique with the S800 magnetic spectrometer to determine the excitation energy in ^{28}Al, and performing high-resolution γ-ray tracking with the Gamma-Ray Energy Tracking In-beam Nuclear Array (GRETINA) to identify the 1022-keV γ ray associated with the decay from the 1.74-MeV T=1 isobaric analog state in ^{10}B, a ΔS=0 excitation-energy spectrum in ^{28}Al was extracted. Monopole and dipole contributions were determined through a multipole-decomposition analysis, and the isovector giant dipole resonance and isovector giant monopole resonance (IVGMR) were identified. The results show that this probe is a powerful tool for studying the elusive IVGMR, which is of interest for performing stringent tests of modern density functional theories at high excitation energies and for constraining the bulk properties of nuclei and nuclear matter. The extracted distributions were compared with theoretical calculations based on the normal-modes formalism and the proton-neutron relativistic time-blocking approximation. Calculated cross sections based on these strengths underestimate the data by about a factor of 2, which likely indicates deficiencies in the reaction calculations based on the distorted wave Born approximation.

Published

2017

46. Revealing the ultrafast light-to-matter energy conversion before heat diffusion in a layered Dirac semimetal

Author

Ishida, Y., Masuda, H., Sakai, H., Ishiwata, S., and Shin, S.

Subjects

Condensed Matter - Materials Science

Abstract

There is still no general consensus on how one can describe the out-of-equilibrium phenomena in matter induced by an ultrashort light pulse. We investigate the pulse-induced dynamics in a layered Dirac semimetal SrMnBi2 by pump-and-probe photoemission spectroscopy. At ~<1 ps, the electronic recovery slowed upon increasing the pump power. Such a bottleneck-type slowing is expected in a two-temperature model (TTM) scheme, although opposite trends have been observed to date in graphite and in cuprates. Subsequently, an unconventional power-law cooling took place at ~100 ps, indicating that spatial heat diffusion is still ill defined at ~100 ps. We identify that the successive dynamics before the emergence of heat diffusion is a canonical realization of a TTM scheme. Criteria for the applicability of the scheme is also provided.

Published

2016

47. Pulse shape analysis of signals from SiPM-based CsI(Tl) detectors for low-energy protons: Saturation correction and particle identification

Author

Teranishi, T., Ueno, Y., Osada, M., Oka, S., Iribe, K., Yoshida, H., Sakai, H., and Kubo, T.

Published

2021

48. Measurement for p–He Elastic Scattering with a 65 MeV Polarized Proton Beam

Author

Nakai, S., Sekiguchi, K., Miki, K., Watanabe, A., Mukai, T., Shibuya, S., Watanabe, M., Kawahara, K., Sakai, D., Wada, Y., Shiokawa, Y., Taguchi, T., Eto, D., Akieda, T., Kon, H., Ito, M., Ino, T., Hatanaka, K., Tamii, A., Ong, H. J., Kobayashi, N., Inoue, A., Nakamura, S., Wakasa, T., Mitsumoto, S., Ohshiro, H., Goto, S., Maeda, Y., Sakai, H., Uesaka, T., Wakui, T., Orr, N. A., editor, Ploszajczak, M., editor, Marqués, F. M., editor, and Carbonell, J., editor

Published

2020

49. Compelete Set of Deuteron Analyzing Powers for dp Elastic Scattering at 70–300 MeV/nucleon and Three-Nucleon Forces

Author

Sekiguchi, K., Wada, Y., Watanabe, A., Eto, D., Akieda, T., Kon, H., Miki, K., Sakamoto, N., Sakai, H., Sasano, M., Shimizu, Y., Suzuki, H., Uesaka, T., Yanagisawa, Y., Dozono, M., Kawase, S., Kubota, Y., Yako, K., Maeda, Y., Kawakami, S., Yamamoto, T., Sakaguchi, S., Wakasa, T., Yasuda, J., Ohkura, A., Shindo, Y., Tabata, M., Milman, E., Chebotaryov, S., Okamura, H., Tang, T. L., Orr, N. A., editor, Ploszajczak, M., editor, Marqués, F. M., editor, and Carbonell, J., editor

Published

2020

50. Local structural disorder introduced by Cr in fcc high-/medium-entropy alloys consisting of 3d transition metal elements.

Author

Furuya, D., Oda, M., Chen, Z., Li, L., Murakawa, H., Sakai, H., Nitani, H., Niwa, Y., Abe, H., Uetsuka, H., Karube, T., Inui, H., and Hanasaki, N.

Subjects

TRANSITION metals, FACE centered cubic structure, ATOMIC displacements, EXTENDED X-ray absorption fine structure, CHROMIUM, ALLOYS

Abstract

High-/medium-entropy alloys (H/MEAs) have attracted attention for their excellent mechanical properties. According to first-principles calculations, the atomic displacements from their lattice points are element-dependent and correlated with the yield strength of H/MEAs. To investigate experimentally the element dependence of the local structure, we measured the extended x-ray absorption fine structure in seven kinds of face-centered cubic H/MEAs consisting of 3d transition metal elements. Our experimental results indicate that the local disorder around chromium (Cr) is larger than that around other elements, which is a common feature in all the measured fcc H/MEAs, aligning with prior theoretical studies indicating larger displacements of Cr in comparison to other elements. We discuss the mechanism underlying the local structural disorder induced by the constituent element Cr. [ABSTRACT FROM AUTHOR]

Published

2024