ホーム > 日野原 伸生/ Hinohara, Nobuo

日野原 伸生

Hinohara, Nobuo

計算科学研究センター , 助教

http://wwwnucl.ph.tsukuba.ac.jp/~hinohara/

オープンアクセス版の論文は「つくばリポジトリ」で読むことができます。
  1. 1. Effects of quasiparticle-vibration coupling on Gamow-Teller strength and β decay with the Skyrme proton-neutron finite-amplitude method Qunqun Liu; Jonathan Engel; Nobuo Hinohara; Markus Kortelainen
      Physical Review C 109: 044308-1 - 044308-8 (2024) Semantic Scholar
  2. 2. Triplet-odd pairing in finite nuclear systems: Even-even singly closed nuclei Nobuo Hinohara; Tomohiro Oishi; Kenichi Yoshida
      Physical Review C 109: 034302-1 - 034302-9 (2024) Semantic Scholar
  3. 3. Nuclear mass table in density functional approach inspired by neutron-star observations Hana Gil; Nobuo Hinohara; Chang Ho Hyun; Kenichi Yoshida
      Physical Review C 108: 044316-1 - 044316-8 (2023) Semantic Scholar
  4. 4. Local α-removal strength in the mean-field approximation Takashi Nakatsukasa; Nobuo Hinohara
      Physical Review C 108: 014318-1 - 014318-10 (2023) Semantic Scholar
  5. 5. Collective model for cluster motion in 8Be, 12C, and 16O systems based on microscopic 2α, 3α, and 4α models Yoshiko Kanada-En'yo; Nobuo Hinohara
      Physical Review C 106: 054312-1 - 054312-13 (2022) Semantic Scholar
  6. 6. KIDS density functional for deformed nuclei: examples of the even–even Nd isotopes Hana Gil; Nobuo Hinohara; Chang Ho Hyun; Kenichi Yoshida
      Journal of the Korean Physical Society 81: 113 - 120 (2022) Semantic Scholar
  7. 7. Global calculation of two-neutrino double-β decay within the finite amplitude method in nuclear density functional theory Nobuo Hinohara; Jonathan Engel
      Physical Review C 105: 044314-1 - 044314-14 (2022) Semantic Scholar
  8. 8. Finite-amplitude method for collective inertia in spontaneous fission Kouhei Washiyama; Nobuo Hinohara; Takashi Nakatsukasa
      Physical Review C 103: 014306-1 - 014306-11 (2021) Semantic Scholar
  9. 9. Implementation of nuclear time-dependent density-functional theory and its application to the nuclear isovector electric dipole resonance Yue Shi; Nobuo Hinohara; Bastian Schuetrumpf
      Physical Review C 102: 044325 (2020) Semantic Scholar
  10. 10. Shape evolution of neutron-rich 106,108,110Mo isotopes in the triaxial degree of freedom J. Ha; T. Sumikama; F. Browne; N. Hinohara (+45 著者) and O. Wieland
      Physical Review C 101: 044311 (2020) Semantic Scholar
  11. 11. Energy-weighted sum rule for nuclear density functional theory N. Hinohara
      Physical Review C 100: 024310 (2019) Semantic Scholar
  12. 12. Low-lying collective excited states in nonintegrable pairing models based on the stationary-phase approximation to the path integral F. Ni; N. Hinohara; T. Nakatsukasa
      Physical Review C 98: 064327 (2018) Semantic Scholar
  13. 13. Extending pairing energy density functional using pairing rotational moments of inertia N. Hinohara
      Journal of Physics G: Nuclear and Particle Physics 45: 024004 (2018) Semantic Scholar
  14. 14. Microscopic derivation of the Bohr–Mottelson collective Hamiltonian and its application to quadrupole shape dynamics K. Matsuyanagi; M. Matsuo; T. Nakatsukasa; K. Yoshida (+1 著者) K. Sato
      Physica Scripta 91: 063014 (2016) Semantic Scholar
  15. 15. Pairing Nambu-Goldstone Modes within Nuclear Density Functional Theory Nobuo Hinohara; Witold Nazarewicz
      Physical Review Letters 116: 152502 (2016) Semantic Scholar
  16. 16. Finite amplitude method applied to the giant dipole resonance in heavy rare-earth nuclei Tomohiro Oishi; Markus Kortelainen; Nobuo Hinohara
      Physical Review C 93: 034329 (2016) Semantic Scholar
  17. 17. Microscopic derivation of the quadrupole collective Hamiltonian for shape coexistence/mixing dynamics Kenichi Matsuyanagi; Masayuki Matsuo; Takashi Nakatsukasa; Kenichi Yoshida (+1 著者) Koichi Sato
      Journal of Physics G: Nuclear and Particle Physics 43: 024006 (2016) Semantic Scholar
  18. 18. Testing the importance of collective correlations in neutrinoless ββ decay J. Menéndez; N. Hinohara; J. Engel; G. Martínez-PinedoT. R. Rodríguez
      Physical Review C 93: 014305 (2016) Semantic Scholar
  19. 19. Multipole modes in deformed nuclei within the finite amplitude method M. Kortelainen; N. Hinohara; W. Nazarewicz
      Physical Review C 92: 051302(R) (2015) Semantic Scholar
  20. 20. Collective inertia of the Nambu-Goldstone mode from linear response theory N. Hinohara
      Physical Review C 92: 034321 (2015) Semantic Scholar
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書籍等出版物情報はまだありません。

  1. 1. Energy-weighted sum rule for multipole and spin-M1 transitions and ground-state properties Nobuo Hinohara
    The workshop on frontier nuclear studies with gamma-ray spectrometer arrays (gamma24) 2024年3月27日
  2. 2. 有限振幅法のエミュレータ 日野原 伸生; Xilin Zhang; Jonathan Engel
    日本物理学会2024年春季大会 2024年3月18日 日本物理学会
  3. 3. Nuclear matrix element for double-beta decay within density functional theory Nobuo Hinohara
    Unraveling the History of the Universe and Matter Evolution with Underground Physics (UGAP2024) 2024年3月4日 新学術領域研究「地下から解き明かす宇宙の歴史と物質の進化」 招待有り
  4. 4. Pairing rotation and pairing properties in ground states Nobuo Hinohara
    Reimei Workshop "Intersection of Nuclear Structure and Direct Reaction" 2024年2月29日 JAEA
  5. 5. Spin-triplet pairing in nuclear DFT Nobuo Hinohara
    RIKEN Symposium Second Workshop on Fundamentals in Density Functional Theory (DFT2024) 2024年2月21日 理化学研究所
  6. 6. Collective phenomena related to neutron-proton pairing in the ground and excited states around N=Z Nobuo Hinohara
    Advancing physics at next RIBF (ADRIB24) 2024年1月23日 理化学研究所 招待有り
  7. 7. Recent progress in the nuclear matrix element calculation using the finite-amplitude method for QRPA Nobuo Hinohara
    RCNP workshop for Theoretical and experimental approaches for nuclear matrix elements of double-beta decay 2023年12月22日 招待有り
  8. 8. スピン三重項対相関と関連実験量 日野原 伸生
    原子核におけるスピン自由度の織り成すダイナミクス 2023年12月13日 RCNP 招待有り
  9. 9. Alpha-particle formation and nuclear pairing Nobuo Hinohara; Takashi Nakatsukasa
    Workshop on Nuclear Cluster Physics (WNCP2023) 2023年11月28日
  10. 10. Local QRPA inertia for symmetric-asymmetric fission dynamics Nobuo Hinohara; Sylvester Agbemava; Kyle Godbey; Witold Nazarewicz; Ante Ravlić; Jhilam Sadhukhan
    International Conference on Heavy-Ion Collisions at near-barrier energies (FUSION23) 2023年11月21日
  11. 11. Recent development and application of finite‐amplitude method for QRPA Nobuo Hinohara
    DNA-OMEG Workshop on Nuclear structure, reaction and astrophysics 2023年11月10日 招待有り
  12. 12. Nuclear pairing and related phenomena in nuclear dynamics Nobuo Hinohara
    Theory Seminar 2023年9月12日 Facility for Rare Isotope Beams 招待有り
  13. 13. Reduced basis method for DFT linear response Nobuo Hinohara
    2023 NUCLEI Collaboration Meeting 2023年7月25日
  14. 14. 理論から見たRIBFで取得すべきデータ1 日野原 伸生
    TRIP-RIBF実験キックオフミーティング 2023年4月21日 理化学研究所 招待有り
  15. 15. 有限核での同種粒子間スピン三重項対凝縮の分析 日野原 伸生; 大石 知広; 吉田 賢市
    日本物理学会2023年春季大会 2023年3月22日 日本物理学会
  16. 16. 流れるスピン(パネルディスカッション) 日野原 伸生
    第4回若手放談会:エキゾチック核物理の将来 2023年3月16日 理化学研究所 招待有り
  17. 17. Radial moments of charge density distributions in stable and unstable nuclei Kota Yoshinaga; Nobuo Hinohara; Takashi Nakatsukasa
    International Symposium on Nuclear Spectroscopy for Extreme Quantum Systems (NUSPEQ2023) 2023年3月8日
  18. 18. Moments of inertia of paring rotation calculated with BCS model for the pairing Hamiltonian Chisato Ruike; Nobuo Hinohara; Takashi Nakatsukasa
    International Symposium on Nuclear Spectroscopy for Extreme Quantum Systems (NUSPEQ2023) 2023年3月8日
  19. 19. Local alpha strength functions in nuclei Takashi Nakatsukasa; Nobuo Hinohara
    International Symposium on Nuclear Spectroscopy for Extreme Quantum Systems (NUSPEQ2023) 2023年3月8日
  20. 20. Effect of the Coulomb interaction on nuclear deformation and drip lines Kenta Hagihara; Takashi Nakatsukasa; Nobuo Hinohara
    International Symposium on Nuclear Spectroscopy for Extreme Quantum Systems (NUSPEQ2023) 2023年3月8日
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