Valence bond phases in<i>S</i>= 1/2 Kane–Mele–Heisenberg model

Zare, Mohammad; Mosadeq, Hamid; Shahbazi, Farhad; Jafari, S. A.

doi:10.1088/0953-8984/26/45/456004

Cited by 3 publications

(3 citation statements)

References 58 publications

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“…Furthermore, analysis of the ground state properties by defining appropriate structure factors, suggests a plaquette valence bond solid (PVBS) ground state for 0.2 J 2 /J 1 0.35 which transforms to a valence bond solid (VBS) state with staggered dimerization at J 2 /J 1 ≈ 0.35 20,21 . The existence of plaquette valence bond solid has been verified by different methods, such as functional renormalization group 22 , coupled cluster method (CCM) 23,24 , mean-field plaquette valence bond theory 25,37 and density matrix renormalization group (DMRG) 26,27 . However, other methods such as Schwinger boson mean-field approach 28,29,32,33 , Schwinger fermion mean-field theory 30 and variational Monte Carlo 31 propose a Z 2 quantum spin liquid (QSL) for the disordered region.…”

Section: Introductionmentioning

confidence: 99%

“…ED calculations in both S z = 0, and a nearest neighbor valence bond (NNVB) basis, show that the NNVB basis provides a very good description of the ground state for J J 0.2 0.3 / ≈ [20,21]. The existence of a plaquette VBS has been verified by different methods, such as the functional renormalization group [22], the coupled cluster method (CCM) [23,24], mean-field plaquette valence bond theory [25,37] and the density matrix renormalization group (DMRG) [26,27]. However, other methods such as the Schwinger boson mean-field approach [28,29,32,33], Schwinger fermion mean-field theory [30] and variational Monte Carlo [31] propose a Z 2 QSL for the disordered region.…”

Section: Introductionmentioning

confidence: 99%

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Quantum phase diagram of distortedJ₁ − J₂HeisenbergS = 1/2 antiferromagnet in honeycomb lattice: a modified spin wave study

Ghorbani

Shahbazi

Mosadeq

2016

J. Phys.: Condens. Matter

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Using modified spin wave (MSW) method, we study the J1 − J2 Heisenberg model with first and second neighbor antiferromagnetic exchange interactions. For symmetric S = 1/2 model, with the same couplings for all the equivalent neighbors, we find three phase in terms of frustration parameter α = J2/J1: (1) a commensurate collinear ordering with staggered magnetization (Néel.I state) for 0 ≤ᾱ 0.207 , (2) a magnetically gapped disordered state for 0.207 ᾱ 0.369, preserving all the symmetries of the Hamiltonian and lattice, hence by definition is a quantum spin liquid (QSL) state and (3) a commensurate collinear ordering in which two out of three nearest neighbor magnetizations are antiparallel and the remaining pair are parallel (Néel.II state), for 0.396 ᾱ ≤ 1. We also explore the phase diagram of distorted J1 −J2 model with S = 1/2. Distortion is introduced as an inequality of one nearest neighbor coupling with the other two. This yields a richer phase diagram by the appearance of a new gapped QSL, a gapless QSL and also a valence bond crystal (VBC) phase in addition to the previously three phases found for undistorted model.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Quantum phase diagram of distortedJ₁ − J₂HeisenbergS = 1/2 antiferromagnet in honeycomb lattice: a modified spin wave study

Ghorbani

Shahbazi

Mosadeq

2016

J. Phys.: Condens. Matter

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“…Due to the suppression of charge fluctuations in the limit of the strong on-site Coulomb repulsion, we try to obtain the effective spin Hamiltonian using second-order perturbation theory. The perturba-tion to second-order in t 1 /U (t 2 /U ), we find an effective spin Hamiltonian for the half-filling case including the Kane-Mele Heisenberg [93,94] and Dzyaloshinskii-Moriya (DM) terms as follows:…”

Section: Model Hamiltonianmentioning

confidence: 99%