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202 results on '"Sugimoto, Takanori"'

1. Multifractality and Hyperuniformity in Quasicrystalline Bose-Hubbard Models with and without Disorder

Author

Hori, Masahiro, Sugimoto, Takanori, Hashizume, Yoichiro, and Tohyama, Takami

Subjects
Condensed Matter - Quantum Gases, Condensed Matter - Disordered Systems and Neural Networks, Condensed Matter - Statistical Mechanics, Condensed Matter - Strongly Correlated Electrons
Abstract

Clarifying similarities and differences in physical properties between crystalline and quasicrystalline systems is one of central issues in studying quasicrystals. To contribute to this, we apply multifractal and hyperuniform analyses to nonuniform spatial patterns in the Bose-Hubbard model on the Penrose and Ammann-Beenker tilings. Based on the mean-field approximation, we obtain real-space distributions of local superfluid amplitude and bosonic condensate. In both Mott insulating and superfluid phases, the distributions are hyperuniform. Analyzing the order metric that quantifies the complexity of nonuniform spatial patterns, we find that both quasicrystals show a significant increase of the order metric at a phase boundary between the Mott insulating and superfluid phases, in stark contrast to the case of a periodic square lattice. Our results suggest that hyperuniformity is a useful concept to differentiate between crystalline and quasicrystalline bosonic systems. The order metric clarifies if the distribution of a physical quantity reflects the point distribution or not, and quantifies how complex the distribution is in comparison with the point distribution. Moreover, we introduce on-site random potentials into these quasicrystalline Bose-Hubbard models, leading to a Bose glass phase. Contrary to the Mott insulating and superfluid phases, we find that the Bose glass phase is multifractal. The same multifractality appears on a Bose glass phase in the periodic square lattice. Therefore, multifractality is common in a Bose glass phase irrespective of the periodicity of systems., Comment: 14 pages, 17 figures

Published
2024

2. Anomalous magnetic transition in a disordered quasicrystal approximant with heavy-fermion nature

Author

Shiino, Takayuki, Labib, Farid, Hirano, Yuma, Deguchi, Kazuhiko, Imura, Keiichiro, Sugimoto, Takanori, Ohhashi, Satoshi, Fujita, Nobuhisa, Tsai, An-Pang, and Sato, Noriaki K.

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

Quasicrystal approximant (CexY1-x)Cd6 (0 < x < 1) forms a network of corner-sharing octahedra. We report that (Ce0.8Y0.2)Cd6 exhibits an anomalous magnetic transition which can be classified neither into the conventional static magnetic ordering nor into spin glasses. The anomalous transition is characterized by the coexistence of a static order and a frequency-dependent sharp positive anomaly in the 3rd-harmonic susceptibility. Based on the investigation of the reference systems CeCd6 and (Ce0.05Y0.95)Cd6, we speculate that the anomalous transition could be induced by disorder in the possible frustrated Ce-network in the presence of the Kondo effect., Comment: 5 figures

Published
2024

3. Self-consistent study of topological superconductivity in two-dimensional quasicrystals

Author

Hori, Masahiro, Sugimoto, Takanori, Tohyama, Takami, and Tanaka, K.

Subjects
Condensed Matter - Superconductivity
Abstract

We study two-dimensional $s$-wave topological superconductivity with Rashba spin-orbit coupling and Zeeman field in Penrose and Ammann-Beenker quasicrystals. By solving the Bogoliubov-de Gennes equations self-consistently for not only the superconducting order parameter, but also the spin-dependent Hartree potential, we show the stable occurrence of TSC with broken time-reversal symmetry in both Penrose and Ammann-Beenker quasicrystals. The topological nature of the quasicrystalline system is signified by the Bott index $B$. Topological phase transitions are found to occur, where $B$ changes between 0 and $\pm 1$, as the chemical potential or Zeeman field is varied. In terms of self-consistent solutions, we demonstrate the existence of a Majorana zero mode per edge or vortex when $B=\pm 1$, consistently with the bulk-edge/defect correspondence for periodic systems., Comment: 11 pages, 10 figures

Published
2024

4. Revisit of magnetic orders in 1/1 approximant crystals of Tsai-type quasicrystal from theoretical points of view

Author

Sugimoto, Takanori, Suzuki, Shintaro, Tamura, Ryuji, and Tohyama, Takami

Subjects
Condensed Matter - Materials Science
Abstract

The various magnetic orders observed in approximant crystals of Tsai-type quasicrystal are important for deepening our understanding of mysterious magnetism in quasicrystals. Using an icosahedral cluster model with inter-cluster interactions, we give an intuitive explanation of the mechanism of magnetic orders previously reported by classical Monte-Carlo simulations for an approximant-crystal model describing a Gd-based Tsai-type 1/1 approximant crystal., Comment: 2 pages, 2 figures

Published
2023

5. Current numbers of qubits and their uses

Author

Ichikawa, Tsubasa, Hakoshima, Hideaki, Inui, Koji, Ito, Kosuke, Matsuda, Ryo, Mitarai, Kosuke, Miyamoto, Koichi, Mizukami, Wataru, Mizuta, Kaoru, Mori, Toshio, Nakano, Yuichiro, Nakayama, Akimoto, Okada, Ken N., Sugimoto, Takanori, Takahira, Souichi, Takemori, Nayuta, Tsukano, Satoyuki, Ueda, Hiroshi, Watanabe, Ryo, Yoshida, Yuichiro, and Fujii, Keisuke

Published
2024
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6. A comprehensive survey on quantum computer usage: How many qubits are employed for what purposes?

Author

Ichikawa, Tsubasa, Hakoshima, Hideaki, Inui, Koji, Ito, Kosuke, Matsuda, Ryo, Mitarai, Kosuke, Miyamoto, Koichi, Mizukami, Wataru, Mizuta, Kaoru, Mori, Toshio, Nakano, Yuichiro, Nakayama, Akimoto, Okada, Ken N., Sugimoto, Takanori, Takahira, Souichi, Takemori, Nayuta, Tsukano, Satoyuki, Ueda, Hiroshi, Watanabe, Ryo, Yoshida, Yuichiro, and Fujii, Keisuke

Subjects
Quantum Physics
Abstract

Quantum computers (QCs), which work based on the law of quantum mechanics, are expected to be faster than classical computers in several computational tasks such as prime factoring and simulation of quantum many-body systems. In the last decade, research and development of QCs have rapidly advanced. Now hundreds of physical qubits are at our disposal, and one can find several remarkable experiments actually outperforming the classical computer in a specific computational task. On the other hand, it is unclear what the typical usages of the QCs are. Here we conduct an extensive survey on the papers that are posted in the quant-ph section in arXiv and claim to have used QCs in their abstracts. To understand the current situation of the research and development of the QCs, we evaluated the descriptive statistics about the papers, including the number of qubits employed, QPU vendors, application domains and so on. Our survey shows that the annual number of publications is increasing, and the typical number of qubits employed is about six to ten, growing along with the increase in the quantum volume (QV). Most of the preprints are devoted to applications such as quantum machine learning, condensed matter physics, and quantum chemistry, while quantum error correction and quantum noise mitigation use more qubits than the other topics. These imply that the increase in QV is fundamentally relevant, and more experiments for quantum error correction, and noise mitigation using shallow circuits with more qubits will take place., Comment: 14 pages, 5 figures, figures regenerated

Published
2023
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7. Quantum-circuit algorithms for many-body topological invariant and Majorana zero mode

Author

Sugimoto, Takanori

Subjects
Quantum Physics, Condensed Matter - Strongly Correlated Electrons
Abstract

The topological state of matter is a potential resource to realize long-term fault-tolerant quantum computers beyond the near-term noisy intermediate-scale quantum devices. To achieve the realization, we need a deep understanding of topological behaviors in real quantum computers. However, quantum-circuit algorithms to analyze topological properties have still been insufficient. Here we propose three quantum-circuit algorithms, (i) to find the ground state in the selected parity subspace, (ii) to determine the many-body topological invariant, and (iii) to visualize the zero-energy edge mode. To demonstrate these algorithms, we adopt the interacting Kitaev chain as a typical model of many-body topological superconductors in one dimension. The algorithms are applicable to not only one-dimensional topological superconductors but other topological states including higher-dimensional systems., Comment: 11 pages, 7 figures

Published
2023

8. Confined states and topological phases in two-dimensional quasicrystalline $\pi$-flux model

Author

Ghadimi, Rasoul, Hori, Masahiro, Sugimoto, Takanori, and Tohyama, Takami

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Other Condensed Matter, Condensed Matter - Quantum Gases
Abstract

Motivated by topological equivalence between an extended Haldane model and a chiral-$\pi$-flux model on a square lattice, we apply $\pi$-flux models to two-dimensional bipartite quasicrystals with rhombus tiles in order to investigate topological properties in aperiodic systems. Topologically trivial $\pi$-flux models in the Ammann-Beenker tiling lead to massively degenerate confined states whose energies and fractions differ from the zero-flux model. This is different from the $\pi$-flux models in the Penrose tiling, where confined states only appear at the center of the bands as is the case of a zero-flux model. Additionally, Dirac cones appear in a certain $\pi$-flux model of the Ammann-Beenker approximant, which remains even if the size of the approximant increases. Nontrivial topological states with nonzero Bott index are found when staggered tile-dependent hoppings are introduced in the $\pi$-flux models. This finding suggests a new direction in realizing nontrivial topological states without a uniform magnetic field in aperiodic systems., Comment: 19 pages, 23 figures, 12 tables

Published
2023
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9. VQE-generated Quantum Circuit Dataset for Machine Learning

Author

Nakayama, Akimoto, Mitarai, Kosuke, Placidi, Leonardo, Sugimoto, Takanori, and Fujii, Keisuke

Subjects
Quantum Physics
Abstract

Quantum machine learning has the potential to computationally outperform classical machine learning, but it is not yet clear whether it will actually be valuable for practical problems. While some artificial scenarios have shown that certain quantum machine learning techniques may be advantageous compared to their classical counterpart, it is unlikely that quantum machine learning will outclass traditional methods on popular classical datasets such as MNIST. In contrast, dealing with quantum data, such as quantum states or circuits, may be the task where we can benefit from quantum methods. Therefore, it is important to develop practically meaningful quantum datasets for which we expect quantum methods to be superior. In this paper, we propose a machine learning task that is likely to soon arise in the real world: clustering and classification of quantum circuits. We provide a dataset of quantum circuits optimized by the variational quantum eigensolver. We utilized six common types of Hamiltonians in condensed matter physics, with a range of 4 to 16 qubits, and applied ten different ans\"{a}tze with varying depths (ranging from 3 to 32) to generate a quantum circuit dataset of six distinct classes, each containing 300 samples. We show that this dataset can be easily learned using quantum methods. In particular, we demonstrate a successful classification of our dataset using real 4-qubit devices available through IBMQ. By providing a setting and an elementary dataset where quantum machine learning is expected to be beneficial, we hope to encourage and ease the advancement of the field., Comment: 9 pages, 6figures

Published
2023

10. Higher-dimensional Hofstadter butterfly on Penrose lattice

Author

Ghadimi, Rasoul, Sugimoto, Takanori, and Tohyama, Takami

Subjects
Condensed Matter - Quantum Gases
Abstract

Quasicrystal is now open to search for novel topological phenomena enhanced by its peculiar structure characterized by an irrational number and high-dimensional primitive vectors. Here we extend the concept of a topological insulator with an emerging staggered local magnetic flux (i.e., without external fields), similar to the Haldane's honeycomb model, to the Penrose lattice as a quasicrystal. The Penrose lattice consists of two different tiles, where the ratio of the numbers of tiles corresponds to an irrational number. Contrary to periodic lattices, the periodicity of energy spectrum with respect to the magnetic flux no longer exists reflecting the irrational number in the Penrose lattice. Calculating the Bott index as a topological invariant, we find topological phases appearing in a fractal energy spectrum like the Hofstadter butterfly. More intriguingly, by folding the one-dimensional aperiodic magnetic flux into a two-dimensional periodic flux space, the fractal structure of energy spectrum is extended to higher dimension, whose section corresponds to the Hofstadter butterfly., Comment: 4 pages, 4 figures

Published
2022
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12. Quasi-fractionalization of spin in a cluster-based Haldane state supported by chirality of a triangular spin tube

Author

Sugimoto, Takanori and Tohyama, Takami

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

Fractionalization of quantum degrees of freedom holds the key to finding new phenomena in physics, e.g., the quark model in hadron physics, the spin-charge separation in strongly-correlated electron systems, and the fractional quantum Hall effect. A typical example of the fractionalization in quantum spin systems is the spin-$1$ Haldane state, whose intriguing characteristics are well described by fractionalized $S=1/2$ virtual spins in a bilinear-biquadratic spin-$1$ chain, the so-called Affleck--Kennedy--Lieb--Tasaki model, delivering two individual spin-$1/2$ degrees of freedom as edge states. Here we theoretically propose an exotic extension of the Haldane state and chirality in a triangular spin tube, inducing a quasi-fractionalization of spin-$1/2$ degree of freedom, i.e., a quarter spin. Existence of the edge state is confirmed both analytically and numerically, combining a low-energy perturbation theory and variational matrix-product state method. Our study can not only propose a new quantum spin property but pave a way to novel quantum states of matter., Comment: 10 pages, 3 figures

Published
2021
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13. Coexistence of Strong and Weak Majorana Zero Modes in Anisotropic XY Spin Chain with Second-Neighbor Interaction

Author

Wada, Kazuhiro, Sugimoto, Takanori, and Tohyama, Takami

Subjects
Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Superconductivity
Abstract

We theoretically investigate Majorana zero modes emerging in an anisotropic XY spin chain with second neighbor interactions. The spin chain is mathematically equivalent to the Kitaev chain composing of spinless fermions if only nearest-neighbor interactions are considered. Recent studies on the Kitaev chain with long-ranged interactions, have presented coexistence of several Majorana zero modes. Investigating the topological phase diagram of the anisotropic XY spin chain with second neighbor interactions, we find coexistence of several Majorana zero modes similar to the Kitaev chain. However, we confirm that one of zero modes is restricted into a Hilbert subspace. The mode is regarded as a so-called weak zero mode that should exhibit thermodynamical properties different from a (strong) zero mode appearing in the whole Hilbert space. Since the quantum statistics of spin is the same as a hard-core boson, we expect an experimental realization of the weak mode in not only quantum spin materials but also optical lattices for cold atom systems., Comment: 13 pages, 7 figures

Published
2021
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14. Classical and Quantum Magnetic Ground States on an Icosahedral Cluster

Author

Suzuki, Shintaro, Tamura, Ryuji, and Sugimoto, Takanori

Subjects
Condensed Matter - Other Condensed Matter, Condensed Matter - Materials Science, Condensed Matter - Strongly Correlated Electrons
Abstract

Recent discovery of various magnetism in Tsai-type quasicrystalline approximants, in whose alloys rare-earth ions located on icosahedral apices are coupled with each other via the Ruderman--Kittel--Kasuya--Yosida interaction, opens an avenue to find novel magnetism originating from the icosahedral symmetry. Here we investigate classical and quantum magnetic states on an icosahedral cluster within the Heisenberg interactions of all bonds. Simulated annealing and numerical diagonalization are performed to obtain the classical and quantum ground states. We obtain qualitative correspondence of classical and quantum phase diagrams. Our study gives a good starting point to understand the various magnetism in not only quasicrystalline approximants but also quasicrystals., Comment: 8 pages, 6 figures

Published
2020
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15. Topological superconductivity in quasicrystals

Author

Ghadimi, Rasoul, Sugimoto, Takanori, Tanaka, K., and Tohyama, Takami

Subjects
Condensed Matter - Superconductivity
Abstract

We propose realization of non-Abelian topological superconductivity in two-dimensional quasicrystals by the same mechanism as in crystalline counterparts. Specifically, we study a two-dimensional electron gas in Penrose and Ammann-Beenker quasicrystals with Rashba spin-orbit coupling, perpendicular Zeeman magnetic field, and conventional $s$-wave superconductivity. We find that topological superconductivity with broken time-reversal symmetry is realized in both Penrose and Ammann-Beenker quasicrystals at low filling, where the Bott index is unity. The topological nature of this phase is confirmed by the existence of a zero-energy surface bound state and the chiral propagation of a wave packet projected onto the midgap bound state along the surfaces. Furthermore, we confirm the existence of a single Majorana zero mode each in a vortex at the center of the system and along the surfaces, signifying the non-Abelian character of the system when the Bott index is unity., Comment: 11 pages, 9 figures

Published
2020
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16. Mean-field study of the Bose-Hubbard model in Penrose lattice

Author

Ghadimi, Rasoul, Sugimoto, Takanori, and Tohyama, Takami

Subjects
Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Quantum Gases, Condensed Matter - Statistical Mechanics
Abstract

We examine the Bose-Hubbard model in the Penrose lattice based on inhomogeneous mean-field theory. Since averaged coordination number in the Penrose lattice is four, mean-field phase diagram consisting of the Mott insulator (MI) and superfluid (SF) phase is similar to that of the square lattice. However, the spatial distribution of Bose condensate in the SF phase is significantly different from uniform distribution in the square lattice. We find a fractal structure in its distribution near the MI-SF phase boundary. The emergence of the fractal structure is a consequence of cooperative effect between quasiperiodicity in the Penrose lattice and criticality at the phase transition., Comment: 9 pages, 5 figures, 1 table

Published
2020
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17. Magnetic excitations in magnetization plateaux of a frustrated spin ladder

Author

Sasaki, Kota, Sugimoto, Takanori, Sota, Shigetoshi, and Tohyama, Takami

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

Magnetization plateaux emerging in quantum spin systems due to spontaneously breaking of translational symmetry have been reported both theoretically and experimentally. The broken symmetry can induce reconstruction of elementary excitations such as Goldstone and Higgs modes, whereas its microscopic mechanism and reconstructed quasi-particle in magnetization-plateau phases have remained unclear so far. Here we theoretically study magnetic excitations in the magnetization-plateau phases of a frustrated spin ladder by using dynamical density-matrix renormalization-group method. Additionally, analytical approaches with perturbation theory are performed to obtain intuitive view of magnetic excitations. Comparison between numerical and analytical results indicates the presence of a reconstructed quasi-particle originating from spontaneously broken translational symmetry, which is realized as a collective mode of spin trimer called trimeron., Comment: 10 pages, 7 figures

Published
2019
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18. Magnetic orders induced by RKKY interaction in Tsai-type quasicrystalline approximant Au-Al-Gd

Author

Miyazaki, Haruka, Sugimoto, Takanori, Morita, Katsuhiro, and Tohyama, Takami

Subjects
Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Materials Science
Abstract

Recent experimental study on Tsai-type quasicrystalline approximant Au-Al-Gd has revealed the presence of magnetic orders and phase transitions with changing the Au/Al concentration. Motivated by the experiment, we theoretically investigate whether a successive change of magnetic orders occurs in a minimal magnetic model including the RKKY interaction only. We find that the model induces multifarious magnetic orders depending on the Fermi wavenumber and gives a good starting point for understanding the experimental observation. In addition, we predict the presence of an undiscovered novel magnetic order called cuboc order at large Fermi wavenumber region., Comment: 6 pages, 4 figures

Published
2019
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19. Cluster-Based Haldane States in Spin-1/2 Cluster Chains

Author

Sugimoto, Takanori, Morita, Katsuhiro, and Tohyama, Takami

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

The Haldane state is a typical quantum and topological state of matter, which exhibits an edge state corresponding to symmetry-protected topological order in a one-dimensional integer spin chain. This edge state can be utilized for a processing unit of quantum computation. Its realization, however, has difficulties with synthesis of integer spin compounds. In contrast, one-half spin systems are more designable due to recent progress on intended synthesis of organic materials, quantum dots, and optical lattices. Here we propose a concept to design the Haldane state with one-half spins by making use of a chain composed of one-half spin clusters. If the clusters contains two spins, the ground state of a chain corresponds to the Affleck--Kennedy--Lieb--Tasaki state. In the case of an odd number of spins in the clusters, we propose a concrete procedure to construct a field-induced Haldane state. We illustrate the procedure with a 5-spin cluster chain., Comment: 8 pages, 5 figures

Published
2018
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20. Reentrant Topological Phase Transition in a Bridging Model between Kitaev and Haldane Chains

Author

Sugimoto, Takanori, Ohtsu, Mitsuyoshi, and Tohyama, Takami

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

We present a reentrant phase transition in a bridging model between two different topological models: Kitaev and Haldane chains. This model is activated by introducing a bond alternation into the Kitaev chain [A. Yu Kitaev, Phys.-Usp. {\bf 44} 131 (2001)]. Without the bond alternation, finite pairing potential induces a topological state defined by zero-energy Majorana edge mode, while finite bond alternation without the pairing potential makes a different topological state similar to the Haldane state, which is defined by local Berry phase in the bulk. The topologically-ordered state corresponds to the Su-Schrieffer-Heeger state, which is classified as the same symmetry class. We thus find a phase transition between the two topological phases with a reentrant phenomenon, and extend the phase diagram in the plane of the pairing potential and the bond alternation by using three techniques: recursive equation, fidelity, and Pfaffian. In addition, we find that the phase transition is characterized by both the change of the position of Majorana zero-energy modes from one edge to the other edge and the emergence of a string order in the bulk, and that the reentrance is based on a sublattice U(1) rotation. Consequently, our study and model do not only open a direct way to discuss the bulk and edge topologies, but demonstrate an example of the reentrant topologies., Comment: 8 pages, 3 figures

Published
2017
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21. Majorana Zero-Energy Mode and Fractal Structure in Fibonacci-Kitaev Chain

Author

Ghadimi, Rasoul, Sugimoto, Takanori, and Tohyama, Takami

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

We theoretically study a Kitaev chain with a quasiperiodic potential, where the quasiperiodicity is introduced by a Fibonacci sequence. Based on an analysis of the Majorana zero-energy mode, we find the critical $p$-wave superconducting pairing potential separating a topological phase and a non-topological phase. The topological phase diagram with respect to Fibonacci potentials follow a self-similar fractal structure characterized by the box-counting dimension, which is an example of the interplay of fractal and topology like the Hofstadter's butterfly in quantum Hall insulators., Comment: 5 pages, 4 figures

Published
2017
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22. Static and Dynamic Magnetic Properties of Spin-1/2 Inequilateral Diamond-Chain Compounds $A_3$Cu$_3$AlO$_2$(SO$_4$)$_4$ ($A$=K, Rb, and Cs)

Author

Morita, Katsuhiro, Fujihala, Masayoshi, Koorikawa, Hiroko, Sugimoto, Takanori, Sota, Shigetoshi, Mitsuda, Setsuo, and Tohyama, Takami

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

Spin-1/2 compounds A3Cu3AlO2(SO4)4 (A=K, Rb, and Cs) have one-dimensional (1D) inequilateral diamond chains. We analyze the temperature dependence of the magnetic susceptibility and determine the magnetic exchange interactions. In contrast to the azurite, a dimer is formed on one of the sides of the diamond. From numerical analyses of the proposed model, we find that the dimer together with a nearly isolated 1D Heisenberg chain characterizes magnetic properties including magnetization curve and magnetic excitations. This implies that a dimer-monomer composite chain without frustration is a good starting point for describing these compounds.

Published
2017
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24. Phenomenological Magnetic Model in Tsai-Type Approximants

Author

Sugimoto, Takanori, Tohyama, Takami, Hiroto, Takanobu, and Tamura, Ryuji

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

Motivated by recent discovery of canted ferromagnetism in Tsai-type approximants Au-Si-RE (RE = Tb, Dy, Ho), we propose a phenomenological magnetic model reproducing their magnetic structure and thermodynamic quantities. In the model, cubic symmetry ($m\bar{3}$) of the approximately-regular icosahedra plays a key role in the peculiar magnetic structure determined by a neutron diffraction experiment. Our magnetic model does not only explain magnetic behaviors in the quasicrystal approximants, but also provides a good starting point for the possibility of coexistence between magnetic long-range order and aperiodicity in quasicrystals., Comment: 5 pages, 3figures

Published
2016
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26. Quasi-Spin Correlations in a Frustrated Quantum Spin Ladder

Author

Sugimoto, Takanori, Mori, Michiyasu, Tohyama, Takami, and Maekawa, Sadamichi

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

The quasi-spin correlations in a frustrated quantum spin ladder with one-half magnetization are theoretically studied by using the density-matrix renormalization-group method and the quasi-spin transformation. In this model, the frustration induces a gapless-to-gapful phase transition with a strong rung coupling. The gapful state is observed as the one-half magnetization plateau in the magnetization curve. In the magnetization-plateau state, we find that the quasi-spin dimer has a large expectation value with long-ranged correlations. This result does not only comes in useful to clarify the magnetization-plateau state, but gives a crucial information to understand the magnetization curve of the real compound BiCu$_2$PO$_6$, whose effective spin model corresponds to ours., Comment: 7 pages, 2 figures

Published
2015
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27. Magnetization Plateaux by Reconstructed Quasi-spinons in a Frustrated Two-Leg Spin Ladder under a Magnetic Field

Author

Sugimoto, Takanori, Mori, Michiyasu, Tohyama, Takami, and Maekawa, Sadamichi

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

The quantum phase transitions induced by a magnetic field are theoretically studied in a frustrated two-leg spin ladder. Using the density-matrix renormalization-group method, we find some magnetic phase transitions and plateaux in two different cases of strong and weak rung couplings. With the strong rung coupling, the three magnetization plateaux are found at 1/3, 1/2, and 2/3 due to the frustration. Those can be understood in terms of a quasi-spinon reconstructed from the singlet and the triplets of spins on a rung. The plateau at 1/2 corresponds to the valence bond solid of the quasi-spinons, while the plateaux at 1/3 and 2/3 can be associated with the array of quasi-spinons such as soliton lattice. This is different from the usual Bose-Einstein-condensation picture of triplons. Our results will be useful to understand magnetization curves in BiCu$_2$PO$_6$., Comment: 7 pages, 3 figures

Published
2015
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28. Lifshitz Transition Induced by Magnetic Field in Frustrated Two-Leg Spin-Ladder Systems

Author

Sugimoto, Takanori, Mori, Michiyasu, Tohyama, Takami, and Maekawa, Sadamichi

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

The magnetization curve in a frustrated two-leg spin-ladder system is theoretically studied using both analytical and numerical methods. This spin system is mapped onto a hard-core boson system, which is composed of bond-operators describing the triplon excitation. By the analytical method using the mean-field theory on the bond-operators, we show that cusp singularities emerge in the magnetization curve as a function of a magnetic field due to the strong frustration. This originates from a change of number of Fermi points in the bosonic dispersion relation with the applied field. It is analogous to Lifshitz transition. This singularity is clarified by numerical calculation with the density-matrix renormalization-group method. Our results will be useful to understand the magnetization process observed in the frustrated two-leg spin-ladder compound BiCu2PO6., Comment: 6 pages, 2 figures

Published
2014
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30. Spin-Spin Correlation Enhanced by Impurities in a Frustrated Two-leg Spin Ladder

Author

Sugimoto, Takanori, Mori, Michiyasu, Tohyama, Takami, and Maekawa, Sadamichi

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

We theoretically study a spin-spin correlation enhanced by non-magnetic impurities in a frustrated two-leg spin ladder. The frustration is introduced by the next-nearest-neighbor antiferromagnetic interaction in the leg direction in the antiferromagnetic two-leg spin ladder. The spin-spin correlation function around impurity site is calculated by the density-matrix renormalization-group method. We find that the spin-spin correlation is enhanced around impurity site with the wavenumber reflecting the frustration. As increasing the frustration, the wavenumber is shifted from commensurate to incommensurate. We discuss several experimental results on BiCu2PO6 in the light of our theory., Comment: 5 pages, 4 figures

Published
2013
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31. Frustration effect on magnetic excitations in a two-leg spin-ladder system

Author

Sugimoto, Takanori, Mori, Michiyasu, Tohyama, Takami, and Maekawa, Sadamichi

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

We theoretically study the magnetic excitations in a frustrated two-leg spin-ladder system, in which antiferromagnetic exchange interactions act on the nearest-neighbor and next-nearestneighbor bonds in the leg direction, and on the nearest-neighbor bonds in the rung direction. A dynamical spin correlation function at zero temperature is calculated by using the dynamical density-matrix renormalization-group method for possible magnetic phases, i.e., columnar-dimer and rung-singlet phases. The columnar-dimer phase is characterized by multi-spinon excitations with spin gap, while the rung-singlet phase is dominated by the triplet excitation in the rung direction. It is found that a major difference between these two phases appears in the spectral weight of magnetic excitations, in particular, of the bonding and anti-bonding modes in the rung direction. Therefore, we can distinguish one phase from the other by the difference of the spectral weight. Furthermore, we examine frustration effect on both modes in the rung-singlet phase with a perturbation theory from the strong coupling limit. It is shown that the anti-bonding mode is stable against the frustration, and a wavenumber with minimum excitation energy is shifted from the commensurate to incommensurate ones. On the other hand, the bonding mode is merged into the continuum excitation of multiple triplet excitations by increasing the frustration. By comparing our results with inelastic neutron scattering experiments for BiCu$_2$PO$_6$, the magnitude of the magnetic exchange interactions and the ground state will be determined., Comment: 9 pages, 4 figures

Published
2013
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32. Spin Excitation Assisted by Non-Softening Phonon for Spin-Peierls Model

Author

Sugimoto, Takanori, Sota, Shigetoshi, and Tohyama, Takami

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

We study spin dynamics of a spin-Peierls chain with nearest-neighbor and next-nearest-neighbor Heisenberg spin exchange interactions together with a gapped and dispersionless phonon. The dynamical spin correlation function and phonon excitation spectrum are calculated at zero temperature by using dynamical density-matrix renormalization-group method. We find a new spin excitation assisted by non-softening phonon. The excitation is located above phonon in energy and shows a dispersive feature with strong intensity near the momentum $\pi$. The phonon excitation spectrum is also influenced by the spin-phonon interaction. We discuss the possibility of observing the spin-phonon coupled features in inorganic spin-Peierls compound CuGeO$_3$., Comment: 9 pages, 6 figures

Published
2011
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33. Chirality in spin-1/2 zigzag XY chain: Low-temperature density-matrix renormalization group study

Author

Sugimoto, Takanori, Sota, Shigetoshi, and Tohyama, Takami

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

We study spin chirality for a spin-1/2 zigzag XY chain at low temperature by applying a low-temperature density-matrix renormalization group technique. We calculate temperature dependence of dynamical and static correlations of the chirality. In a chiral phase, chiral long-range order at zero temperature disappears at finite temperature, consistent with the fact that there is no long-range order at finite temperature in one-dimensional systems with short-range interactions. In a dimer phase next to the chiral phase, we find an enhancement of static chiral correlation as well as spin correlation with increasing temperature. The enhancement corresponds to the increase of spectral weight inside a gap in the dynamical chiral-correlation function. This temperature-induced chiral correlation is a demonstration of the presence of a chiral state in excited states., Comment: 6 pages, 5 figures

Published
2010
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39. Polarization of very cold neutron using a permanent magnet quadrupole

Author

Yoshioka, Tamaki, Mishima, Kenji, Ino, Takashi, Taketani, Kaoru, Muto, Suguru, Morishima, Takahiro, Shimizu, Hirohiko M., Oku, Takayuki, Suzuki, Junichi, Shinohara, Takenao, Sakai, Kenji, Sato, Hiromi, Hirota, Katsuya, Otake, Yoshie, Kitaguchi, Masaaki, Hino, Masahiro, Seki, Yoshichika, Iwashita, Yoshihisa, Yamada, Masako, Ichikawa, Masahiro, Sugimoto, Takanori, Kawasaki, Shinsuke, Komamiya, Sachio, Otono, Hidetoshi, Kamiya, Yoshio, Yamashita, Satoru, and Geltenbort, Peter

Published
2011
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41. Development of modulating permanent magnet sextupole lens for focusing of pulsed cold neutrons

Author

Yamada, Masako, Iwashita, Yoshihisa, Ichikawa, Masahiro, Sugimoto, Takanori, Tongu, Hiromu, Fujisawa, Hiroshi, Shimizu, Hirohiko M., Ino, Takashi, Mishima, Kenji, Taketani, Kaoru, Yoshioka, Tamaki, Muto, Suguru, Morishima, Takahiro, Oku, Takayuki, Suzuki, Jun-ichi, Shinohara, Takenao, Sakai, Kenji, Sato, Hiromi, Hirota, Katsuya, Otake, Yoshie, Seki, Yoshichika, Kawasaki, Shinsuke, Komamiya, Sachio, Kamiya, Yoshio, Otono, Hidetoshi, Yamashita, Satoru, and Geltenbort, Peter

Published
2009
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42. Highly polarized very cold neutrons through a permanent magnet quadrupole

Author

Taketani, Kaoru, Mishima, Kenji, Ino, Takashi, Yoshioka, Tamaki, Muto, Suguru, Morishima, Takahiro, Shimizu, Hirohiko M., Oku, Takayuki, Suzuki, Junichi, Shinohara, Takenao, Sakai, Kenji, Sato, Hiromi, Hirota, Katsuya, Otake, Yoshie, Kitaguchi, Masaaki, Hino, Masahiro, Seki, Yoshichika, Iwashita, Yoshihisa, Yamada, Masako, Ichikawa, Masahiro, Sugimoto, Takanori, Kawasaki, Shinsuke, Komamiya, Sachio, Kamiya, Yoshio, Otono, Hidetoshi, Yamashita, Satoru, and Geltenbort, Peter

Published
2009
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