Your search keyword '"Nakamura, J. G."' showing total 5 results

1. Correlation between ferroelectricity and torsional motion of acetyl groups in tris(4-acetylphenyl)amine observed by muon spin relaxation

Author

Nakamura, J. G., Hiraishi, M., Okabe, H., Koda, A., Kumai, R., Pratt, F. L., and Kadono, R.

Subjects

Condensed Matter - Materials Science

Abstract

It is demonstrated by muon spin relaxation and resonance experiments that the switchable spontaneous polarization of the organic ferroelectric compound tris(4-acetylphenyl)amine (TAPA) is governed by the local molecular dynamics of the acetyl group. The implanted muon forms paramagnetic states which exhibit longitudinal spin relaxation due to the fluctuation of hyperfine fields exerted from unpaired electrons. The first-principle density functional theory calculations indicate that these states are muonated radicals localized at the phenyl group and on the carbon/oxygen of the acetyl group, thereby suggesting that the spin relaxation is dominated by the random torsional motion of acetyl group around the CC bond to the phenyl group. The stepwise change in the relative yield of radicals at $T_0\approx 350$ K and the gradual increase in the spin relaxation rate with temperature ($T$) indicate that the torsional motion is significantly enhanced by thermal excitation above $T_0$. This occurs concomitantly with the strong enhancement in the atomic displacement parameter of oxygen in the acetyl group (which is non-linear in $T$), indicating that it is the local molecular motion of the acetyl groups that drives the structural transition., Comment: 5 figures, 9 pages

Published

2025

2. Field-Induced Criticality in YbCu4Au

Author

Taniguchi, T., Osato, K., Okabe, H., Kitazawa, T., Kawamata, M., Hashimoto, S., Ikeda, Y., Nambu, Y., Sari, D. P., Watanabe, I., Nakamura, J. G., Koda, A., Gouchi, J., Uwatoko, Y., Kittaka, S., Sakakibara, T., Mizumaki, M., Kawamura, N., Yamanaka, T., Hiraki, K., Sasaki, T., and Fujita, M.

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

YbCu4Au is a unique material exhibiting multiple quantum fluctuations simultaneously. In this study, we investigated the field-induced criticality in YbCu4Au, based on comprehensive micro and macro measurements, including powder X-ray diffraction (XRD), neutron powder diffraction (NPD), nuclear magnetic resonance, magnetization, resistivity, specific heat, muon spin rotation relaxation (muSR), and X-ray absorption spectroscopy (XAS). Single crystals of YbCu4Au were grown, and their crystal structure was determined using XRD, and NPD measurements. Magnetic successive transitions were observed below 1 T by specific heat, resistivity, NPD, and muSR measurements. XAS measurements further indicate that the valence of Yb ions (+2.93) remained unchanged above 2 T. Moreover, the change in quadrupole frequency observed in the previous study is attributable to the electric quadrupole, as the expected value of the electric quadrupole was finite under magnetic fields [S. Wada et al., Journal of Physics: Condensed Matter, 20, 175201 (2008).]. These experimental results suggest that YbCu4Au exhibited bicritical behavior near 1 T, arising from the competition between RKKY interaction, accounting for the magnetic phases, and the Zeeman effect., Comment: 9 pages, 8 figures

Published

2024

3. Acceleration of positive muons by a radio-frequency cavity

Author

Aritome, S., Futatsukawa, K., Hara, H., Hayasaka, K., Ibaraki, Y., Ichikawa, T., Iijima, T., Iinuma, H., Ikedo, Y., Imai, Y., Inami, K., Ishida, K., Kamal, S., Kamioka, S., Kawamura, N., Kimura, M., Koda, A., Koji, S., Kojima, K., Kondo, A., Kondo, Y., Kuzuba, M., Matsushita, R., Mibe, T., Miyamoto, Y., Nakamura, J. G., Nakazawa, Y., Ogawa, S., Okazaki, Y., Otani, M., Oyama, S., Saito, N., Sato, H., Sato, T., Sato, Y., Shimomura, K., Shioya, Z., Strasser, P., Sugiyama, S., Sumi, K., Suzuki, K., Takeuchi, Y., Tanida, M., Tojo, J., Ueda, K., Uetake, S., Xie, X. H., Yamada, M., Yamamoto, S., Yamazaki, T., Yamura, K., Yoshida, M., Yoshioka, T., and Yotsuzuka, M.

Subjects

Physics - Accelerator Physics, High Energy Physics - Experiment

Abstract

Acceleration of positive muons from thermal energy to $100~$keV has been demonstrated. Thermal muons were generated by resonant multi-photon ionization of muonium atoms emitted from a sheet of laser-ablated aerogel. The thermal muons were first electrostatically accelerated to $5.7~$keV, followed by further acceleration to 100 keV using a radio-frequency quadrupole. The transverse normalized emittance of the accelerated muons in the horizontal and vertical planes were $0.85 \pm 0.25 ~\rm{(stat.)}~^{+0.22}_{-0.13} ~\rm{(syst.)}~\pi~$mm$\cdot$mrad and $0.32\pm 0.03~\rm{(stat.)} ^{+0.05}_{-0.02} ~\rm{(syst.)}~\pi~$mm$\cdot$mrad, respectively. The measured emittance values demonstrated phase space reduction by a factor of $2.0\times 10^2$ (horizontal) and $4.1\times 10^2$ (vertical) allowing good acceleration efficiency. These results pave the way to realize the first-ever muon accelerator for a variety of applications in particle physics, material science, and other fields.

Published

2024

4. Spontaneous magnetic field and disorder effects in BaPtAs_1-x_Sb_x_ with honeycomb network

Author

Adachi, T., Ogawa, T., Komiyama, Y., Sumura, T., Saito-Tsuboi, Y., Takeuchi, T., Mano, K., Manabe, K., Kawabata, K., Imazu, T., Koda, A., Higemoto, W., Okabe, H., Nakamura, J. G., Ito, T. U., Kadono, R., Baines, C., Watanabe, I., Imai, Y., Goryo, J., Nohara, M., and Kudo, K.

Subjects

Condensed Matter - Superconductivity

Abstract

Chiral superconductivity exhibits the formation of novel electron pairs that breaks the time-reversal symmetry and has been actively studied in various quantum materials in recent years. However, despite its potential to provide definitive information, effects of disorder in the crystal structure on the chiral superconductivity has not yet been clarified, and therefore the investigation using a solid-solution system is desirable. We report muon-spin-relaxation (muSR) results of layered pnictide BaPtAs_1-x_Sb_x_ with a honeycomb network composed of Pt and (As, Sb). We observed an increase of the zero-field muon-spin relaxation rate in the superconducting (SC) state at the Sb end of x=1.0, suggesting the occurrence of spontaneous magnetic field due to the time-reversal symmetry breaking in the SC state. On the other hand, spontaneous magnetic field was almost and completely suppressed for the As-Sb mixed samples of x=0.9 and 0.2, respectively, suggesting that the time-reversal symmetry breaking SC state in x=1.0 is sensitive to disorder. The magnetic penetration depth estimated from transverse-field muSR measurements at x=1.0 and 0.2 behaved like weak-coupling s-wave superconductivity. These seemingly incompatible zero-field and transverse-field muSR results of BaPtAs_1-x_Sb_x_ with x=1.0 could be understood in terms of chiral d-wave superconductivity with point nodes on the three-dimensional Fermi surface., Comment: 6 pages, 3 figures, 1 table

Published

2024

5. Development of Transient $\mu$SR Method for High-Flux Pulsed Muons

Author

Nishimura, S., Okabe, H., Hiraishi, M., Miyazaki, M., Nakamura, J. G., Koda, A., and Kadono, R.

Subjects

Physics - Instrumentation and Detectors

Abstract

In order to expand the applicability of muon spin rotation, relaxation, and resonance ($\mu$SR) experiments with pulsed muons and to make effective use of the high-flux beam, we have developed a new experimental method ``transient $\mu$SR''. In this method, $\mu$SR data for each muon pulse are tagged with external parameters such as temperature and magnetic field in real time, allowing the sample environment to be changed without interrupting data collection. As a result, continuous $\mu$SR measurements under sample conditions that vary on a time scale longer than the beam pulse interval (40 ms) are realized, and efficient beam utilization is achieved by eliminating the lag time associated with moving between discrete measurement points. The transient $\mu$SR method was applied to the study of the magnetic properties of cupric oxide (CuO) and the observation of level-crossing resonance relaxation in copper, and the method was successfully established by confirming that the results reproduce those in the previous reports., Comment: 9 pages, 5 figures

Published

2023