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175 results on '"Chishiro Michioka"'

151. Zeeman-Perturbed63Cu Nuclear Quadrupole Resonance Study of Vortex State of YBa2Cu3O7-δ

Author

Yutaka Ueda, Kazuyoshi Yoshimura, Chishiro Michioka, and Yutaka Itoh

Subjects
Physics, Superconductivity, Zeeman effect, Condensed matter physics, Condensed Matter - Superconductivity, General Physics and Astronomy, Vortex state, Condensed Matter - Strongly Correlated Electrons, symbols.namesake, Condensed Matter::Superconductivity, symbols, Quasiparticle, Antiferromagnetism, Condensed Matter::Strongly Correlated Electrons, Nuclear quadrupole resonance, Spin (physics), Critical field
Abstract

We report a $^{63}$Cu nuclear quadrupole resonance (NQR) study of the vortex state for an aligned polycrystalline sample of a slightly overdoped high-$T_c$ superconductor YBa$_2$Cu$_3$O$_{7-\delta}$ ($T_{c}\sim$92 K) at a low magnetic field of 96 mT along the c axis, near a lower critical field $H_{c1}$. We observed the frequency distribution of the nuclear spin-lattice relaxation time $^{63}T_1$ in the Zeeman-perturbed $^{63}$Cu NQR spectrum below $T_c$. The characteristic behavior of 1/$^{63}T_1$, taking the minimum values with respect to temperature and frequency, indicates the significant role of antiferromagnetic spin fluctuations in the Doppler-shifted quasiparticle energy spectrum inside and outside vortex cores., Comment: 4 pages, 4 figures

Published
2006
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152. Unconventional multicritical point in the S = ½ Re2-cluster magnet La3Re2O10.

Author

Yuya Haraguchi, Chishiro Michioka, Hiroaki Ueda, and Kazuyoshi Yoshimura

Subjects
*MAGNETIC properties, *MAGNETISM, *MAGNETIZATION, *CONDENSED matter, *CONDENSED matter physics
Abstract

Magnetic properties were investigated in La3Re2O10 with Re2 clusters. An Re2 cluster has three 5d electrons in nondegenerated cluster orbitals, resulting in the construction of S = 1/2 spin per Re2 cluster. La3Re2O10 has a Weiss temperature of approximately - 110 K and exhibits a broad maximum in the temperature dependence of magnetic susceptibility, suggesting the development of short-range ordering among cluster spins at low temperatures. La3Re2O10 shows an antiferromangetic ordering at TN = 18.7 K, and below TN, La3Re2O10 shows a strong field dependence of magnetization, which indicates several phase transitions. The magnetic properties of La3Re2O10 are summarized as a magnetic field-temperature phase diagram, which suggests an unconventional multicritical point. Such a phenomenon cannot be interpreted only by the magnetic interactions owing to phase rule, suggesting the existence of other degrees of freedom for making an exotic phase transition. [ABSTRACT FROM AUTHOR]

Published
2014
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153. Anomalous itinerant-electron metamagnetic transition in the layered Sr1-xCaxCo2P2 system.

Author

Masaki Imai, Chishiro Michioka, Hiroto Ohta, Akira Matsuo, Koichi Kindo, Hiroaki Ueda, and Kazuyoshi Yoshimura

Subjects
*METAMAGNETISM, *ELECTRONS, *METALS, *MAGNETIZATION, *FORCE & energy
Abstract

Magnetic properties of the layered itinerant system Sr1-xCaxCo2P2 were investigated under a magnetic field up to 70 T. As for the exchange-enhanced Pauli paramagnetic metal SrCo2P2, the magnetization curve shows two characteristic anomalies. The high-field anomaly corresponds to an itinerant-electron metamagnetic transition (IEMT), while the low-field one is small and broad without any obvious hystereses just as the crossover phenomenon between different energy states. Such a successive transition in the magnetization curve cannot be explained by the conventional phenomenological theory for IEMT based upon the Landau expansion of the magnetic free energy, but by the extended Landau expansion theory dealing with two distinguishable energy states. In the systematical study on Sr1-xCaxCo2P2, furthermore, the metamagnetic transition field decreases and goes to zero as x increases up to 0.5, indicating that the ferromagnetic quantum critical point exists at x ~ 0.5. [ABSTRACT FROM AUTHOR]

Published
2014
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156. NMR investigation of spin fluctuations in the itinerant-electron magnetic compound Sr1-xCaxCo2P2.

Author

Masaki Imai, Chishiro Michioka, Hiroaki Ueda, and Kazuyoshi Yoshimura

Subjects
*NUCLEAR magnetic resonance, *METAMAGNETISM, *STRONTIUM
Abstract

We took 31P NMR measurements of mainly paramagnetic phase Sr1-xCaxCo2P2 (0≤x≤0.5) to reveal the itinerant-electron metamagnetic transition, and of its magnetically ordered phase (0.7≤x≤1), and characterized their spin fluctuations by estimating the spin fluctuation parameter T0 corresponding to the width of the spin fluctuation in the spectrum in frequency space. SrCo2P2 has a quasi-two-dimensional uncollapsed tetragonal (ucT) cell without interlayer P-P bonds, whereas CaCo2P2 has a three-dimensional collapsed tetragonal (cT) cell with P-P bonds. The ab-in-plane component of T0 is much larger than the out-of-plane component in SrCo2P2. As x increases from 0 to 0.5, the in-plane component of T0 decreases proportionally with the metamagnetic transition field. In the antiferromagnetic cT phase (0.7≤x≤1), T0 is constant and spin fluctuations show an isotropic character in contrast to their behavior in the paramagnetic ucT phase (0≤x≤0.5). These results indicate that the in-plane spin fluctuations due to the quasi-two-dimensional crystal structure play a significant role in the metamagnetic transition of this system. [ABSTRACT FROM AUTHOR]

Published
2017
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158. Spin-liquid behavior in the spin-frustrated Mo3 cluster magnet Li2ScMo3O8 in contrast to magnetic ordering in isomorphic Li2InMo3O8.

Author

Yuya Haraguchi, Chishiro Michioka, Masaki Imai, Hiroaki Ueda, and Kazuyoshi Yoshimura

Subjects
*MOLYBDENUM compounds synthesis, *LITHIUM compounds, *METAL clusters, *ISOMORPHISM (Crystallography), *MAGNETIC structure
Abstract

We synthesized the novel S=1/2Mo3 cluster magnet Li2ScMo3O8 as well as the isomorphic compound Li2InMo3O8, and investigated their macroscopic and microscopic physical properties. Li2InMo3O8 showed magnetic ordering at TN~12 K with a 120° structure, while no magnetic ordering is observed down to 0.5 K in Li2ScMo3O8 despite the strong antiferromagnetic interaction among clusters probed by the Weiss temperature. Results of the Li7 nuclear magnetic resonance spectra and the nuclear spin-lattice relaxation rate (1/T1) measurement show direct microscopic proof of the spin-disordered ground state. We discuss the difference in the ground state between Li2ScMo3O8 and Li2InMo3O8 using the description of localized magnetism based on spin frustration within the triangular lattice and that of inter- and intracluster charge fluctuations. [ABSTRACT FROM AUTHOR]

Published
2015
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160. Pressure driven magnetic order in Sr1-xCaxCo2P2.

Author

Forslund, Ola Kenji, Andreica, Daniel, Sassa, Yasmine, Imai, Masaki, Michioka, Chishiro, Yoshimura, Kazuyoshi, Guguchia, Zurab, Shermadini, Zurab, Khasanov, Rustem, Sugiyama, Jun, and Månsson, Martin

Subjects
MUON spin rotation, MAGNETIC transitions, MAGNETIC domain, PHASE diagrams, CARBON dioxide, HYDROSTATIC pressure, CHEMICAL relaxation, MUONS
Abstract

The magnetic phase diagram of Sr 1 - x Ca x Co 2 P 2 as a function of hydrostatic pressure and temperature is investigated by means of high pressure muon spin rotation, relaxation and resonance ( μ + SR). The weak pressure dependence for the x ≠ 1 compounds suggests that the rich phase diagram of Sr 1 - x Ca x Co 2 P 2 as a function of x at ambient pressure may not solely be attributed to chemical pressure effects. The x = 1 compound on the other hand reveals a high pressure dependence, where the long range magnetic order is fully suppressed at p c 2 ≈ 9.8 kbar, which seem to be a first order transition. In addition, an intermediate phase consisting of magnetic domains is formed above p c 1 ≈ 8 kbar where they co-exist with a magnetically disordered state. These domains are likely to be ferromagnetic islands (FMI) and consist of an high- (FMI- 1 ) and low-temperature (FMI- 2 ) region, respectively, separated by a phase boundary at T i ≈ 20 K. This kind of co-existence is unusual and is originating from a coupling between lattice and magnetic degrees of freedoms. [ABSTRACT FROM AUTHOR]

Published
2022
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162. Discovery of Amorphous Iron Hydrides via Novel Quiescent Reaction in Aqueous Solution.

Author

Taguchi, Kohei, Shinozaki, Kazuteru, Okumura, Hideyuki, Michioka, Chishiro, Yoshimura, Kazuyoshi, and Ishihara, Keiichi N.

Subjects
IRON hydrides, AQUEOUS solutions, NANOWIRES, MAGNETIC properties, THERMAL properties
Abstract

Novel amorphous iron hydrides (AIHs) are synthesized for the first time under ambient conditions by employing novel "quiescent reaction", without stirring for mixing solutions, during a conventional aqueous reduction-precipitation process. The kind and morphology of AIHs are dependent on the processing condition, where two types are found, with one form consisting of a tangle of uniform nanowires and the other being granular in nature. Both AIHs undergo transformation to crystalline α-Fe by heat treatment at 600 °C. The nanowire AIH exhibits the hydrogen content of 0.10 wt%, while the granular AIH of 0.22 wt%. Their magnetic and thermal properties are accordingly different, and the non-diffusive hydrogen contributes to stability of AIHs. It is strongly suggested that, by use of quiescent reaction, iron-hydrogen clusters are formed and preserved at an early stage of precipitation reaction, and subsequently aggregated into novel AIHs, preventing α-Fe crystallization. Hence, the AIHs would be categorized as metastable hydrides stabilized with iron-hydrogen clusters. In addition, newly discovered quiescent reaction in aqueous solution, from which unprecedented AIHs are derived, sheds new light on fundamental and essential aqueous reaction. [ABSTRACT FROM AUTHOR]

Published
2020
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163. 新規磁性体・超伝導体の開拓とその物性評価.

Author

吉村一良

Subjects
MAGNETIC measurements, MAGNETIC susceptibility, SPIN-lattice relaxation, CURIE temperature, MAGNETISM, SUPERCONDUCTING transition temperature, RENORMALIZATION (Physics), IRON-based superconductors
Abstract

The brief history of itinerant-electron magnetism has been reviewed in terms of spin fluctuations. In the research field of itinerant-electron magnetism, the effects of spin fluctuations are very important to understand the experimental results. Among itinerant-electron theories, the self-consistent renormalization theory of spin fluctuations (the SCR theory) has developed since 1973 by Moriya’s group. Now, we can use the SCR theory in order to analyze our experimental data quantitatively by means of 4 spin fluctuation parameters, ps, F1, T0, TA, by which we can calculate Curie temperature TC, inverse magnetic susceptibility 1/χ, nuclear spin-lattice relaxation rate 1/T1, specific heats C, etc. quantitatively. In fact, the quantitative discussion is very important to characterize itinerant-electron magnets which distribute from weak-itinerant to localized-moment regimes. Furthermore, Takahashi’s theory of spin fluctuations has been developed since 1986 by setting up two hypotheses in order to solve some serious problems existing in previous itinerant theories including the SCR theory. One is that total amplitudes of spin fluctuations should be conserved (TAC). The second is global consistency (GC), implying that the continuity of magnetization and inverse magnetic susceptibility should be preserved through TC. These two assumptions result in two equations among these 4 spin-fluctuation parameters, by which we can estimate 4 parameters quite easily only by using static magnetic measurements like magnetization and magnetic susceptibility. At the same time, the assumption TAC may result in the unified picture of itinerant ferromagnetism. The effects of spin fluctuations are also important to understand the exotic superconductors of which mechanism is not of BCS-type but of magnetic origin. The superconducting transition temperatures TC of those exotic superconductors can be explained universally by T0 which is the energy width of the spin-fluctuation spectrum. Here, the effects of spin fluctuations are explained quantitatively in itinerant-electron magnetism as well as exotic superconductivity in the review. [ABSTRACT FROM AUTHOR]

Published
2020

164. Arrott plots, M4 plots and the critical temperature of the weak ferromagnet FeGa3−yGey.

Author

Zhang, Yao, Takahashi, Yoshinori, Imai, Masaki, Wang, Guohua, Avila, Marcos A., Takabatake, Toshiro, Michioka, Chishiro, Ueda, Hiroaki, Yoshimura, Kazuyoshi, and Ma, Jie

Subjects
FERROMAGNETIC materials, CURIE temperature, FERROMAGNETISM
Abstract

The Curie temperature TC of the weakly ferromagnetic system FeGa3−yGey is investigated by means of isothermal magnetization experiments. The critical temperature of the ferromagnetic phase transition is estimated by the so-called M4 plots rather than the Arrott plots technique. The M4 plots are exploited from the sixth power term of the expanded free energy, which is neglected by the Arrott plots. The magnetic properties are analyzed by taking into account the effects of spin fluctuations in terms of related spin-fluctuation theories. [ABSTRACT FROM AUTHOR]

Published
2018
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165. Transitions from a Kondo-like diamagnetic insulator into a modulated ferromagnetic metal in FeGa3-yGey.

Author

Yao Zhang, Jie-Sheng Chen, Jie Ma, Jiamin Ni, Masaki Imai, Chishiro Michioka, Yuta Hadano, Avila, Marcos A., Toshiro Takabatake, Shiyan Li, and Kazuyoshi Yoshimura

Subjects
*PHASE transitions, *DIAMAGNETIC materials, *FERROMAGNETIC materials, *FERROMAGNETISM, *MAGNETIC materials
Abstract

One initial and essential question of magnetism is whether the magnetic properties of a material are governed by localized moments or itinerant electrons. Here, we expose the case for the weakly ferromagnetic system FeGa3-yGey, wherein these two opposite models are reconciled, such that the magnetic susceptibility is quantitatively explained by taking into account the effects of spin-spin correlation. With the electron doping introduced by Ge substitution, the diamagnetic insulating parent compound FeGa3 becomes a paramagnetic metal as early as at y = 0.01, and turns into a weakly ferromagnetic metal around the quantum critical point y = 0.15. Within the ferromagnetic regime of FeGa3-yGey, the magnetic properties are of a weakly itinerant ferromagnetic nature, located in the intermediate regime between the localized and the itinerant dominance. Our analysis implies a potential universality for all itinerant-electron ferromagnets. [ABSTRACT FROM AUTHOR]

Published
2018
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166. Magnetocrystalline anisotropy of La- and Co-substituted M-type strontium ferrites: Role of Co2+ and Fe2+.

Author

Hiroaki Ueda, Yasuaki Tanioku, Chishiro Michioka, and Kazuyoshi Yoshimura

Subjects
*COBALT compounds, *MAGNETIC anisotropy
Abstract

We have systematically investigated the magnetic properties of La- and Co-substituted SrFe12O19 using single crystals. By utilizing the traveling solvent floating zone technique, we have grown single crystals over a wide range of substitution content, and examined their saturation moments and magnetocrystalline anisotropy. With increasing content of La and Co, the saturation moment at 300K monotonically increases. The increment of magnetocrystalline anisotropy is almost proportional to the content of Co. In addition, further La substitution also enhances magnetocrystalline anisotropy, which demonstrates that Fe2+ plays an important role to enhance magnetocrystalline anisotropy. We have analyzed magnetocrystalline anisotropy energy as a function of substitution content, and elucidate the effects of Co2+ and Fe2+. [ABSTRACT FROM AUTHOR]

Published
2017
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167. Ising-like anisotropy stabilized 1/3 and 2/3 magnetization plateaus in the V3+ kagome lattice antiferromagnets Cs2KV3F12,Cs2NaV3F12, and Rb2NaV3F12

Author

Masato Goto, Hiroaki Ueda, Chishiro Michioka, Akira Matsuo, Koichi Kindo, Kento Sugawara, Shintaro Kobayashi, Naoyuki Katayama, Hiroshi Sawa, and Kazuyoshi Yoshimura

Subjects
*ANISOTROPY, *ANTIFERROMAGNETIC materials, *MAGNETIZATION
Abstract

We have investigated crystal structure and magnetic properties of three S=1V3+ Ising-like anisotropic kagome lattice antiferromagnets, Cs2KV3F12,Cs2NaV3F12, and Rb2NaV3F12, using single crystals. Each compound crystallizes in a monoclinic system and has a slightly distorted kagome lattice. Although the magnetic properties are similar, the details depend on the magnitude of magnetic anisotropy. The magnetization and magnetic susceptibility are highly anisotropic owing to anisotropic g factors and Ising-like single ion anisotropy originating from partially unquenched orbital moments of V3+, and the easy axis of Ising-like anisotropy is perpendicular to the kagome plane. In contrast to disordered ground states in the isostructural Ti3+ (S=1/2) compounds, the V3+ (S=1) compounds exhibit antiferromagnetic ordering with distorted 120° structure or other nearly coplanar magnetic structure whose basal spin plane includes the easy axis, which is mainly due to large magnetic anisotropy and decrease of quantum fluctuation. Moreover, when magnetic fields are applied perpendicular to the kagome plane, magnetization curves of them show distinct 1/3 and 2/3 magnetization plateaus, which are stabilized by Ising-like single ion anisotropy. In particular, the 2/3 magnetization plateaus are notable magnetic phenomena in kagome lattice antiferromagnets and are due to the combination of spin frustration, Ising-like single ion anisotropy, and the small monoclinic distortion of kagome lattices. [ABSTRACT FROM AUTHOR]

Published
2017
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168. Highly Spin-Frustrated Magnetism in the Topochemically Prepared Triangular Lattice Cluster Magnets Na3A2(MoO4)2Mo3O8 (A=In, Sc).

Author

Haraguchi, Yuya, Michioka, Chishiro, Ueda, Hiroaki, and Yoshimura, Kazuyoshi

Subjects
PROPERTIES of matter, ANTIFERROMAGNETISM, CHEMICAL synthesis, SODIUM compounds, ANTIFERROMAGNETIC materials
Abstract

The physical properties of novel cluster-based triangular lattice antiferromagnets Na3A2(MoO4)2Mo3O8 (A=In, Sc), synthesized through a topochemical Na-intercalation to nonmagnetic Na2A2(MoO4)2Mo3O8, are reported. The S=1/2 [Mo3]11+ clusters form a regular triangular lattice, which gives the magnetic system a strong geometrical spin frustration effect. Despite the strong antiferromagnetic couplings among [Mo3]11+ clusters, they show no long-range magnetic orderings down to 0.5 K with the finite residual magnetic entropy. The ground states of Na3A2(MoO4)2Mo3O8 have been characterized as a quantum spin liquid, owing to the strong spin frustration of cluster spins on the triangular lattice. [ABSTRACT FROM AUTHOR]

Published
2017
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169. Various disordered ground states and ⅓ magnetization-plateau-like behavior in the S=½ Ti3+ kagome lattice antiferromagnets Rb2NaTi3F12, Cs2NaTi3F12, and Cs2KTi3F12

Author

Masato Goto, Hiroaki Ueda, Chishiro Michioka, Akira Matsuo, Koichi Kindo, and Kazuyoshi Yoshimura

Subjects
*GROUND state (Quantum mechanics), *ANTIFERROMAGNETIC materials, *MAGNETIZATION, *CRYSTAL lattices, *CRYSTAL structure, *MAGNETIC properties
Abstract

We have investigated the crystal structure and magnetic properties of three kagome lattice antiferromagnets, Rb2NaTi3F12, Cs2NaTi3F12, and Cs2KTi3F12, using single crystals. These compounds represent a S=1/2 kagome system consisting of magnetic Ti3+ ions, which is expected to have negligibly small Dzyaloshinsky-Moriya interaction. The structural analyses revealed that each of the three compounds has a slightly distorted kagome lattice. The distortion of the kagome lattice becomes small as the ionic radii of constituent alkali metals increase. All three compounds have nearly the same Weiss temperature of -45 K, and the ground states are disordered and strongly depend on the distortion. The ground states of Rb2NaTi3F12, Cs2NaTi3F12, and Cs2KTi3F12 are found to be a two-component state including approximately 1/3 nearly free spins, a gapless disordered state, and a gapped disordered state, respectively. Our experimental results suggest that the ground state of the ideal S=1/2 Heisenberg kagome lattice antiferromagnet is gapped. In addition, the magnetization curves of Cs2NaTi3F12 and Cs2KTi3F12 show anomalies at approximately 1/3 of the full magnetic moment of Ti3+, which are a notable observation of signs of the theoretically proposed 1/3 magnetization plateau in S=1/2 kagome antiferromagnets. [ABSTRACT FROM AUTHOR]

Published
2016
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170. Intrinsic magnetization in the novel quasi-two-dimensional superconducting and magnetic Fe1+δTe1-xSex system.

Author

Yoshimura, Kazuyoshi, Michioka, Chishiro, Matsui, Mami, Ohta, Hiroto, Yang, Jinhu, and Fang, Minghu

Subjects
MAGNETIZATION, IRON compounds, CHALCOGENIDES, SUPERCONDUCTORS, MAGNETIC materials, MAGNETIC susceptibility measurement, ANTIFERROMAGNETISM, ROTATIONAL motion
Abstract

Intrinsic spin susceptibility of the novel layered superconducting and magnetic system Fe1+δTe1-xSex was investigated by means of the magnetization measurements in comparing with the 125Te NMR Knight shift 125K. The macroscopic uniform susceptibility in Fe1+δTe1-xSex consists of the itinerant magnetization originated in the Fe(1) site, localized one in the Fe(2) site and the ferromagnetic-like impurity which is frequently sandwiched by the thin film-like single crystals. Unlike the macroscopic magnetization, Knight shift 125K is mainly attributed to the itinerant magnetism of the Fe(1) site, which is important for the superconductivity and the magnetism in the Fe1+δTe1-xSex system. The magnetic susceptibility estimated in the high-field region agrees well with 125K. The uniform susceptibility of the superconducting Fe1+δTe1-xSex gradually decreases with decreasing temperature in the normal state accompanied by the growth of antiferromagnetic spin afluctuations. [ABSTRACT FROM AUTHOR]

Published
2011
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171. Low Frequency Spin Dynamics Of Itinerant Triangular-Lattice NaxCoO2-yH2O.

Author

Itoh, Yutaka, Ohta, Hiroto, Michioka, Chishiro, and Yoshimura, Kazuyoshi

Subjects
SUPERCONDUCTORS, SPIN-lattice relaxation, NUCLEAR magnetic resonance, NUCLEAR quadrupole resonance, POLYCRYSTALS
Abstract

59Co NQR studies of low frequency spin fluctuations of double-layer hydrated triangular-lattice superconductors and nonsuperconductors NaxCoO2-yH2O are presented. For all the samples, 59Co nuclear spin-lattice relaxation rates 1/59T1 indicated non-Korringa behaviors in the normal states. For the nonsuperconductor, 1/59T1 indicated a magnetic critical slowing down effect. The triangular-lattice superconductivity emerges near a magnetic instability. [ABSTRACT FROM AUTHOR]

Published
2008
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172. Successive phase transitions driven by orbital ordering and electron transfer in quasi-two-dimensional CrSe2 with a triangular lattice.

Author

Shintaro Kobayashi, Hiroaki Ueda, Daisuke Nishio-Hamane, Chishiro Michioka, and Kazuyoshi Yoshimura

Subjects
*PHASE transitions, *ORBITAL mechanics, *CHARGE exchange, *CHROMIUM, *ELECTRON diffraction, *X-ray diffraction, *MAGNETICS
Abstract

We report physical properties of a chromium dichalcogenide 1T-CrSe2 with tetravalent Cr cations. Interplay between orbital degrees of freedom and the valence instability of Cr is studied by means of magnetic, electrical, electron diffraction, and x-ray diffraction measurements. Associated with the phase transitions, a space group of CrSe2 varies from trigonal P3¯m1 to rhombohedral R3¯m through monoclinic I2/m. By considering behaviors of χ and ρ in addition to possible ordering patterns of occupied t2g orbitals, we have concluded that the origin of successive phase transitions is simultaneous occurrence of orbital ordering and valence change of Cr through each phase transition. [ABSTRACT FROM AUTHOR]

Published
2014
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173. Static magnetic order on the metallic triangular lattice in CrSe2 detected by µ+SR.

Author

Jun Sugiyama, Hiroshi Nozaki, Izumi Umegaki, Takeshi Uyama, Kazutoshi Miwa, Brewer, Jess H., Shintaro Kobayashi, Chishiro Michioka, Hiroaki Ueda, and Kazuyoshi Yoshimura

Subjects
*MUON spin rotation, *ANTIFERROMAGNETISM, *CHROMIUM compounds
Abstract

The magnetic nature of a metallic two-dimensional triangular compound, CrSe2, has been investigated by muon spin rotation and relaxation (µSR+) measurements using both powder and single crystal samples. It is found that CrSe2 enters into a static antiferromagnetic (AF) ordered state below 157 K (=TN). Furthermore, the AF state is slightly changed below around 20 K (=TN2). Based on the analysis of the internal magnetic fields at the muon sites predicted with DFT calculations, collinear AF and helical 120° AF are clearly eliminated for the ground state of CrSe2. The most probable one is an incommensurate spin density wave order. [ABSTRACT FROM AUTHOR]

Published
2016
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