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論文

Gapless spin liquid in a square-kagome lattice antiferromagnet

藤原 理賀*; 森田 克洋*; Mole, R.*; 満田 節生*; 遠山 貴巳*; 矢野 真一郎*; Yu, D.*; 曽田 繁利*; 桑井 智彦*; 幸田 章宏*; et al.

Nature Communications (Internet), 11(1), p.3429_1 - 3429_7, 2020/07

 被引用回数:8 パーセンタイル:81.73(Multidisciplinary Sciences)

Observation of a quantum spin liquid (QSL) state is one of the most important goals in condensed-matter physics, as well as the development of new spintronic devices that support next-generation industries. The QSL in two-dimensional quantum spin systems is expected to be due to geometrical magnetic frustration, and thus a kagome-based lattice is the most probable playground for QSL. Here, we report the first experimental results of the QSL state on a square-kagome quantum antiferromagnet, KCu$$_6$$AlBiO$$_4$$(SO$$_4$$)$$_5$$Cl. Comprehensive experimental studies via magnetic susceptibility, magnetisation, heat capacity, muon spin relaxation, and inelastic neutron scattering measurements reveal the formation of a gapless QSL at very low temperatures close to the ground state. The QSL behavior cannot be explained fully by a frustrated Heisenberg model with nearest-neighbor exchange interactions, providing a theoretical challenge to unveil the nature of the QSL state.

論文

Uniaxial-pressure control of magnetic phase transitions in a frustrated magnet CuFe$$_{1-x}$$Ga$$_{x}$$O$$_{2}$$ (x =0, 0.018)

中島 多朗*; 満田 節生*; 高橋 慶一郎*; 吉冨 啓祐*; 増田 一也*; 金子 周史*; 本間 勇紀*; 小林 悟*; 北澤 英明*; 小坂 昌史*; et al.

Journal of the Physical Society of Japan, 81(9), p.094710_1 - 094710_8, 2012/09

We have investigated effects of applied uniaxial pressure ($$p$$) on magnetic phase transitions in a triangular lattice antiferromagnet CuFeO$$_{2}$$ (CFO) and a slightly Ga-substituted compound CuFe$$_{1-x}$$Ga$$_{x}$$O$$_{2}$$ (CFGO) with $$x$$ = 0.018. We have performed neutron diffraction, spherical neutron polarimetry, magnetic susceptibility and pyroelectric measurements under $$p$$ up to 100 MPa applied on the [1$$bar1$$0] surfaces of the single crystal samples.

論文

Uniaxial-pressure control of magnetic phase transitions in a frustrated magnet CuFe$$_{1-x}$$Ga$$_{x}$$O$$_{2}$$ ($$x$$ = 0, 0.018)

中島 多朗*; 満田 節生*; 高橋 慶一郎*; 吉冨 啓祐*; 増田 一也*; 金子 周史*; 本間 勇紀*; 小林 悟*; 北澤 英明*; 小坂 昌史*; et al.

Journal of the Physical Society of Japan, 81(9), p.094710_1 - 094710_8, 2012/09

 被引用回数:12 パーセンタイル:62.78(Physics, Multidisciplinary)

We have investigated effects of applied uniaxial pressure ($$p$$) on magnetic phase transitions in a triangular lattice antiferromagnet CuFeO$$_{2}$$ (CFO) and a slightly Ga-substituted compound CuFe$$_{1-x}$$Ga$$_{x}$$O$$_{2}$$ (CFGO) with $$x$$ = 0.018 by spherical neutron polarimetry. In both of CFO and CFGO ($$x$$ = 0.018), the application of $$p$$ significantly increases the transition temperature from the paramagnetic phase to a collinear incommensurate antiferromagnetic phase. This suggests that the application of $$p$$ breaks equilateral symmetry of the triangular lattice and partially relieves geometrical spin frustration, which generally suppresses long-range magnetic orderings. Thus we demonstrated that uniaxial pressure can be an effective tool to control magnetic phase transitions in frustrated magnets.

論文

Magnons and electromagnons in a spin-lattice-coupled frustrated magnet CuFeO$$2$$ as seen via inelastic neutron scattering

中島 多朗*; 須能 梓*; 満田 節生*; 寺田 典樹*; 木村 尚次郎*; 金子 耕士; 山内 宏樹

Physical Review B, 84(18), p.184401_1 - 184401_7, 2011/11

 被引用回数:32 パーセンタイル:79.37(Materials Science, Multidisciplinary)

We have investigated spin-wave excitations in a four-sublattice (4SL) magnetic ground state of a frustrated magnet CuFeO$$_2$$, in which "electromagnon" excitation has been discovered by recent terahertz time-domain spectroscopy. We have performed high-energy-resolution inelastic neutron scattering measurements in the 4SL phase, resolving fine structures of the lower-energy spin-wave branch near the zone center. We have developed a model Hamiltonian to describe the spin-wave excitations. The determined Hamiltonian parameters have successfully reproduced the spin-wave dispersion relations and intensity maps obtained in the inelastic neutron scattering measurements. The results of the spin-wave analysis have also revealed physical pictures of the magnon and electromagnon modes in the 4SL phase, suggesting that collinear and noncollinear characters of the two spin-wave modes are the keys to understand the dynamical coupling between the spins and electric dipole moments in this system.

論文

Exchange-striction associated with the elliptical proper helical magnetic structure in the ferroelectric phase of CuFe$$_{1-y}$$Ga$$_{y}$$O$$_{2}$$

寺田 典樹*; 中島 多朗*; 満田 節生*; 松田 雅昌; 加倉井 和久; 田中 義人*; 北澤 英明*

Journal of Physics; Conference Series, 211(1), p.012005_1 - 012005_6, 2010/01

 被引用回数:2 パーセンタイル:69.52

Detailed magnetic structure in the ferroelectric phase of CuFe$$_{1-y}$$Ga$$_{y}$$O$$_{2}$$ has been recently determined to be proper helical structure with the ellipcity of $$sim$$ 0.9 by the comprehensive neutron diffraction study. In the present study, we have investigated the lattice modulation associated with the elliptical magnetic structure, using resonant X-ray diffraction measurements on CuFe$$_{0.965}$$Ga$$_{0.035}$$O$$_{2}$$. We observed the superlattice reflection indexed as (0, 1+2$$q$$$$_{rm m}$$, 0), where $$q$$$$_{rm m}$$ is the wave number of the magnetic modulation. The energy spectrum near the Fe-$$K$$ absorption edge for the superlattice peak intensity conforms with that for the fundamental (0, 2, 0) intensity, suggesting that the superlattice modulation is at least associated with the displacements of the Fe ions, The origin of the superlattice modulation is discussed within the exchange-striction model.

論文

Identification of microscopic spin-polarization coupling in the ferroelectric phase of magnetoelectric multiferroic CuFe$$_{1-x}$$Al$$_x$$O$$_2$$

中島 多朗*; 満田 節生*; 稲見 俊哉; 寺田 典樹*; 大隅 寛幸*; Prokes, K.*; Podlesnyak, A.*

Physical Review B, 78(2), p.024106_1 - 024106_10, 2008/07

 被引用回数:35 パーセンタイル:79.39(Materials Science, Multidisciplinary)

We have performed synchrotron X-ray and neutron diffraction measurements on magnetoelectric multiferroic CuFe$$_{1-x}$$Al$$_x$$O$$_2$$ (x=0.0155), which has a proper helical magnetic structure with incommensurate propagation wave vector in the ferroelectric phase. The present measurements revealed that the ferroelectric phase is accompanied by lattice modulation with a wave number 2$$q$$, where $$q$$ is the magnetic modulation wave number. We have calculated the Fourier spectrum of the spatial modulations in the local electric polarization using a microscopic model proposed by T. Arima. Comparing the experimental results with the calculation results, we found that the origin of the 2$$q$$-lattice modulation is the variation in the metal-ligand hybridization between the Fe$$^{3+}$$ ions and O$$^{2-}$$ ions. Combining the present results with the results of a previous polarized neutron diffraction study, we conclude that the microscopic origin of the ferroelectricity in CuFe$$_{1-x}$$Al$$_x$$O$$_2$$ is the variation in the metal-ligand hybridization with spin-orbit coupling.

口頭

Study of complex magnetic structures in frustrated magnets by means of polarized neutrons

加倉井 和久; 脇本 秀一; 松田 雅昌*; 石渡 晋太郎*; 奥山 大輔*; 田口 康二郎*; 十倉 好紀*; 西 正和*; 中島 多朗*; 満田 節生*; et al.

no journal, , 

In studying modern functional materials, one is often confronted with complex spin configurations, for example, non-collinear, incommensurate magnetic structure such as helimagnetic structure as a result of frustrated magnetic interactions. Since the giant functional responses in these materials are direct consequences of these complicated magnetic structures, the detailed knowledge of the structure is mandatory to understand the essence of the magnetic functional materials. In this presentation some recent results on complex magnetic materials such as frustrated and multiferroic systems are reported, where the polarized neutron investigations provided important insight into the complex behavior of these functional materials.

口頭

3次元中性子偏極解析及び共鳴X線散乱を用いたマルチフェロイックCuFe$$_{1-x}$$Ga$$_{x}$$O$$_{2}$$のらせん磁気相における磁気・結晶構造の精密探査

金子 周史*; 中島 多朗*; 満田 節生*; 寺田 典樹*; 脇本 秀一; 武田 全康; 加倉井 和久; 田中 良和*

no journal, , 

三角格子反強磁性体CuFeO$$_{2}$$は幾何学的スピンフラストレーションを内包しており、磁場印加や磁性を担うFe$$^{3+}$$イオンをわずか数%の非磁性イオンで置換することにより誘起される螺旋磁気構造が結晶の反転対称性を破ることで螺旋軸方向([110])に自発分極P110が発生するマルチフェロイック物質として注目されている。この発表では基底状態が強誘電相であるCuFe$$_{1-x}$$Ga$$_{x}$$O$$_{2}$$(x=0.035)において最近発見された従来のP110とは独立したc-軸方向の電気分極Pcの発現に関する(1)三次元中性子偏極解析による螺旋磁気構造解析及び、(2)Fe, CuのK端での共鳴X線散乱実験による結晶構造解析の結果を報告する。

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