K
Kenichi Matsuyanagi
Researcher at Yukawa Institute for Theoretical Physics
Publications - 147
Citations - 2340
Kenichi Matsuyanagi is an academic researcher from Yukawa Institute for Theoretical Physics. The author has contributed to research in topics: Quasiparticle & Hamiltonian (quantum mechanics). The author has an hindex of 28, co-authored 147 publications receiving 2180 citations. Previous affiliations of Kenichi Matsuyanagi include University of Copenhagen & Kyoto University.
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Time-dependent density-functional description of nuclear dynamics
TL;DR: A theoretical framework to describe nuclear dynamics at low energy is the time-dependent density functional theory as discussed by the authors, and its applications to nuclear collective motion, including giant resonances, heavy-ion collisions, and shape coexistence are discussed.
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Symmetry-unrestricted Skyrme–Hartree–Fock–Bogoliubov calculations for exotic shapes in N=Z nuclei from 64Ge to 84Mo
TL;DR: In this paper, shape coexistence and possibility of exotic deformations simultaneously breaking the reflection and axial symmetries in proton-rich N=Z nuclei: 64Ge, 68Se, 72Kr, 76Sr, 80Zr and 84Mo.
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High-spin isomers in Po, At and Rn in the deformed independent particle model
TL;DR: In this paper, the isomeric states in Po, At and Rn isotopes are described as independent particle states in a deformed potential which is symmetric with respect to the direction of the angular momentum.
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Microscopic description of large-amplitude shape-mixing dynamics with inertial functions derived in local quasiparticle random-phase approximation
TL;DR: In this article, the vibrational and rotational collective masses (inertial functions) are determined by local normal modes built on constrained Hartree-Fock-Bogoliubov states and numerical calculations are carried out using the pairing-plus-quadrupole Hamiltonian including the quadrupole-pairing interaction within the two major-shell active model spaces both for neutrons and protons.
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Observation of Low- and High-Energy Gamow-Teller Phonon Excitations in Nuclei
Yoshitaka Fujita,Hisanori Fujita,T. Adachi,C. L. Bai,A. Algora,G. P. A. Berg,P. von Brentano,Gianluca Colò,M. Csatlós,J. M. Deaven,E. Estevez-Aguado,C. Fransen,D. De Frenne,Katsumasa Fujita,E. Ganioǧlu,Carol Guess,Carol Guess,J. Gulyás,Kichiji Hatanaka,Katsuya Hirota,Michio Honma,D. Ishikawa,E. Jacobs,A. Krasznahorkay,Hiroaki Matsubara,Hiroaki Matsubara,Kenichi Matsuyanagi,Rhiannon Meharchand,Rhiannon Meharchand,F. Molina,Kazuo Muto,K. Nakanishi,Alexandru Negret,H. Okamura,Hooi Jin Ong,Takaharu Otsuka,Norbert Pietralla,Norbert Pietralla,Georgios Perdikakis,Georgios Perdikakis,Lucia Popescu,B. Rubio,Hiroyuki Sagawa,Pedro Sarriguren,C. Scholl,Y. Shimbara,Y. Shimbara,Yuji Shimizu,G. Susoy,T. Suzuki,Yuji Tameshige,Atsushi Tamii,J. H. Thies,M. Uchida,Tomotsugu Wakasa,Tomotsugu Wakasa,M. Yosoi,Remco Zegers,K. O. Zell,Juzo Zenihiro +59 more
TL;DR: The existence of these two GT phonon excitations are attributed to the 2 fermionic degrees of freedom in nuclei.