Ordered Phases and Phase Transitions in The Stacked Triangular Antiferromagnet CsCoCl<sub>3</sub>and CsCoBr<sub>3</sub>

Todoroki, Norikazu; Miyashita, Seiji

doi:10.1143/jpsj.73.412

Cited by 41 publications

(29 citation statements)

References 14 publications

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“…1.13a) is realized in the finite temperature region in between the low temperature FR ordered state and the high-temperature paramagnetic phase. So far, the only PD state confirmed is in a threedimensional model with stacked triangular lattices, in which the interlayer spin-spin coupling being stronger than the intralayer couplings [54]. In a series of the subsequent studies, the phase diagram of this model was studied extensively using the classical MC simulation for both weak J 2 [11-13, 49, 57] and for J 2 being comparable to J 1 [24].…”

Section: Partially Disordered Statementioning

confidence: 99%

Magnetism and Transport Phenomena in Spin-Charge Coupled Systems on Frustrated Lattices

Ishizuka¹

2015

Springer Theses

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The series "Springer Theses" brings together a selection of the very best Ph.D. theses from around the world and across the physical sciences. Nominated and endorsed by two recognized specialists, each published volume has been selected for its scientific excellence and the high impact of its contents for the pertinent field of research. For greater accessibility to non-specialists, the published versions include an extended introduction, as well as a foreword by the student's supervisor explaining the special relevance of the work for the field. As a whole, the series will provide a valuable resource both for newcomers to the research fields described, and for other scientists seeking detailed background information on special questions. Finally, it provides an accredited documentation of the valuable contributions made by today's younger generation of scientists.Theses are accepted into the series by invited nomination only and must fulfill all of the following criteria • They must be written in good English.• The topic should fall within the confines of Chemistry, Physics, Earth Sciences, Engineering and related interdisciplinary fields such as Materials, Nanoscience, Chemical Engineering,

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Section: Partially Disordered Statementioning

confidence: 99%

Magnetism and Transport Phenomena in Spin-Charge Coupled Systems on Frustrated Lattices

Ishizuka¹

2015

Springer Theses

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“…The magnetic 3FR state does not appear when the lattice is not distorted. 6) Lattice and spin degrees of freedom and nonequivalence interactions induce the appearance of (3FR, 3FR) phase.…”

Section: Discussionmentioning

confidence: 99%

“…A large number of experimental and theoretical studies have been carried out for hexagonal ABX 3 -type substances such as CsCoCl 3 and CsCoBr 3 because of the successive magnetic phase transitions due to the strong spin frustration. [1][2][3][4][5][6] These substances consist of quasione-dimensional spin chains because the intrachain antiferromagnetic exchange interaction is much stronger than the interchain antiferromagnetic exchange interaction. Substances of this type are expressed by the stacked triangular antiferromagnetic Ising model.…”

Section: Introductionmentioning

confidence: 99%

Phase Diagram of Lattice–Spin System RbCoBr₃

Nishiwaki

Todoroki

2006

J. Phys. Soc. Jpn.

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We study the lattice-spin model of RbCoBr3 which is proposed by Shirahata and Nakamura, by mean field approximation. This model is an Ising spin system on a distorted triangular lattice. There are two kinds of frustrated variables, that is, the lattice and spin. We obtain a phase diagram of which phase boundary is drawn continuously in a whole region. Intermediate phases that include a partial disordered state appear. The model has the first-order phase transitions in addition to the second-order phase transitions. We find a three-sublattice ferrimagnetic state in the phase diagram. The three-sublattice ferrimagnetic state does not appear when the lattice is not distorted.KEYWORDS: RbCoBr3, lattice-spin model, Ising spin system on distorted triangular lattice, frustration, mean field approximation IntroductionA large number of experimental and theoretical studies have been carried out for hexagonal ABX 3 -type substances such as CsCoCl 3 and CsCoBr 3 because of the successive magnetic phase transitions due to the strong spin frustration.1-6) These substances consist of quasione-dimensional spin chains because the intrachain antiferromagnetic exchange interaction is much stronger than the interchain antiferromagnetic exchange interaction. Substances of this type are expressed by the stacked triangular antiferromagnetic Ising model. This model has three types of ordered phases: a partial disordered (PD) phase, a three-sublattice ferrimagnetic (3FR) phase and a two-sublattice ferrimagnetic (2FR) phase.4) These ordered phases are schematically shown in Figs. 1(a), 1(b) and 1(c). In the PD phase, the spins on one of the three sublattices are disordered and the spins on the other two sublattices are ordered antiferromagnetically. In the 3FR phase, the spins on the two sublattices are ordered in the same direction and the spins on the last sublattice are ordered in the opposite direction. The magnitudes of the sublattice magnetizations are mutually different. In the 2FR phase, the magnitudes of the parallel sublattice magnetizations are equal. Mekata described the magnetic phase transitions of these substances as a twodimensional model with a nearest neighbor (NN) interaction and a next nearest neighbor (NNN) ferromagnetic interaction, as shown in Fig. 2, by mean field approximation (MFA). Recently, it has been found that the 3FR phase does not appear on these substances.

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“…Although such PD state was indeed observed in several Co compounds [5,6], subsequent Monte Carlo (MC) simulations indicated that, in purely two-dimensional systems, the PD appears at most as a quasi-LRO and that the transition from the high-T paramagnetic phase is of Kosterlitz-Thouless (KT) type [7][8][9][10][11][12]. The results suggest that, for establishing a PD LRO, it is indispensable to incorporate additional elements, such as a three-dimensional interlayer coupling [13].In this Letter, we explore the possibility of PD LRO in two dimensions when taking account of the coupling to itinerant electrons. Our study is partly motivated by the recent discovery of PD in metallic compounds with quasi-two-dimensional structure [14].…”

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confidence: 96%

Partial Disorder in an Ising-Spin Kondo Lattice Model on a Triangular Lattice

Ishizuka

Motome

2012

Phys. Rev. Lett.

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Phase diagram of an Ising-spin Kondo lattice model on a triangular lattice near 1/3-filling is investigated by Monte Carlo simulation. We identify a partially disordered phase with coexistence of magnetic order and paramagnetic moments, which was unstable in two-dimensional Ising models with localized spins only. The partial disorder emerges in the competing regime between a twosublattice stripe phase and three-sublattice ferrimagnetic phase, at finite temperatures above an electronic phase separation. The peculiar magnetic structure accompanies a charge order and develops a gap in the electronic structure. The results manifest a crucial role of the nonperturbative interplay between spin and charge degrees of freedom in stabilizing the partial disorder.PACS numbers: 75.30. Kz,75.40.Mg The antiferromagnetic (AF) Ising model on a triangular lattice is one of the most fundamental models for geometrically frustrated systems. When the interaction is restricted to the nearest-neighbor (n.n.) pairs, frustration in each triangle prevents the system from longrange ordering (LRO) down to zero temperature (T ), and the ground state has extensive degeneracy and associated residual entropy [1][2][3]. The degenerate ground state is extremely sensitive to perturbations; e.g., further-neighbor interactions can lift the degeneracy and induce a variety of LRO.An intriguing state emergent from the degenerate ground-state manifold is a partially disordered (PD) state. The PD state is peculiar coexistence of magnetically ordered moments and thermally-fluctuating paramagnetic moments. Such possibility was first discussed in the presence of next n.n. ferromagnetic (FM) interaction [4]. A mean-field study reported the existence of a three-sublattice PD phase with an AF ordering on the honeycomb subnetwork and paramagnetic moments at the remaining sites [ Fig. 1(d)]. Although such PD state was indeed observed in several Co compounds [5,6], subsequent Monte Carlo (MC) simulations indicated that, in purely two-dimensional systems, the PD appears at most as a quasi-LRO and that the transition from the high-T paramagnetic phase is of Kosterlitz-Thouless (KT) type [7][8][9][10][11][12]. The results suggest that, for establishing a PD LRO, it is indispensable to incorporate additional elements, such as a three-dimensional interlayer coupling [13].In this Letter, we explore the possibility of PD LRO in two dimensions when taking account of the coupling to itinerant electrons. Our study is partly motivated by the recent discovery of PD in metallic compounds with quasi-two-dimensional structure [14]. The interplay between localized moments and itinerant electrons plays a crucial role in the following points. First of all, the kinetic motion of electrons induces effective interactions known as the Ruderman-Kittel-Kasuya-Yosida (RKKY) mechanism [15][16][17]. The long-ranged and oscillating nature of interaction drive keen competition between different magnetic states. Furthermore, the change of magnetic states affects the electronic state in a ...

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Ordered Phases and Phase Transitions in The Stacked Triangular Antiferromagnet CsCoCl₃and CsCoBr₃

Cited by 41 publications

References 14 publications

Magnetism and Transport Phenomena in Spin-Charge Coupled Systems on Frustrated Lattices

Magnetism and Transport Phenomena in Spin-Charge Coupled Systems on Frustrated Lattices

Phase Diagram of Lattice–Spin System RbCoBr₃

Partial Disorder in an Ising-Spin Kondo Lattice Model on a Triangular Lattice

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Ordered Phases and Phase Transitions in The Stacked Triangular Antiferromagnet CsCoCl3and CsCoBr3

Cited by 41 publications

References 14 publications

Magnetism and Transport Phenomena in Spin-Charge Coupled Systems on Frustrated Lattices

Magnetism and Transport Phenomena in Spin-Charge Coupled Systems on Frustrated Lattices

Phase Diagram of Lattice–Spin System RbCoBr3

Partial Disorder in an Ising-Spin Kondo Lattice Model on a Triangular Lattice

Contact Info

Product

Resources

About

Ordered Phases and Phase Transitions in The Stacked Triangular Antiferromagnet CsCoCl₃and CsCoBr₃

Phase Diagram of Lattice–Spin System RbCoBr₃