F
Fuminori Honda
Researcher at Tohoku University
Publications - 299
Citations - 2854
Fuminori Honda is an academic researcher from Tohoku University. The author has contributed to research in topics: Magnetization & Electrical resistivity and conductivity. The author has an hindex of 23, co-authored 273 publications receiving 1988 citations. Previous affiliations of Fuminori Honda include Kyushu University & University of Kentucky.
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Magnetic, magnetoelastic and other electronic properties of a UIrAl single crystal
TL;DR: In this paper, the results of magnetization measurements on a UIrAl single crystal in fields up to 7 T at temperatures 1.5 -300 T and pressures up to 1.2 -GPa and the ambient pressure data on magnetization up to 40 T, electrical resistivity and specific heat are presented.
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New heavy-fermion antiferromagnet UPd2Cd20.
TL;DR: UPd2Cd20 is found to be an antiferromagnetic heavy-fermion compound with the Néel temperature and exhibits the large electronic specific heat coefficient γ exceeding 500 mJ (K(2)· mol)(-1).
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Crossover Phase Diagram and Electronic State in the Heavy-Fermion Metamagnets UIr2Zn20 and UCo2Zn20
Yusuke Hirose,Tetsuya Takeuchi,Fuminori Honda,Shingo Yoshiuchi,Masayuki Hagiwara,Etsuji Yamamoto,Yoshinori Haga,Rikio Settai,Yoshichika Ōnuki,Yoshichika Ōnuki +9 more
TL;DR: In this article, the crossover phase diagrams of the nonmagnetic heavy-fermion metamagnets UT2Zn20 (T:Ir, Co) are studied by measuring the magnetic and electronic transport properties.
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Magnetic and Fermi Surface Properties of Antiferromagnet EuCd11
Ai Nakamura,Yuichi Hiranaka,Taro Uejo,Tetsuya Takeuchi,Fuminori Honda,Hisatomo Harima,Kazuyuki Matsubayashi,Yoshiya Uwatoko,Masato Hedo,Takao Nakama,Yoshichika Ōnuki +10 more
TL;DR: In this paper, a single crystal of EuCd11 with the BaCd-11-type tetragonal structure was grown by self-flux method, and measured the electrical resistivity, specific heat, magnetic susceptibility, magnetization, and de Haas-van Alphen (dHvA) oscillations under high pressures up to 8 GPa.
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High-pressure studies of Kondo-like perovskite (La0.1Ce0.4Sr0.5)MnO3
TL;DR: The influence of hydrostatic pressure on electrical resistance of perovskite manganese oxide (La 0.1 Ce 0.4 Sr 0.5 )MnO 3 has been investigated under pressures up to 1.8 K/GPa in the temperature range of 77-320 K as mentioned in this paper.