Phase diagram and quantum order by disorder in the kitaev K1 - K2 honeycomb magnet

Ioannis Rousochatzakis; Johannes Reuther; Ronny Thomale; Stephan Rachel; N. B. Perkins

doi:10.1103/PhysRevX.5.041035

Phase diagram and quantum order by disorder in the kitaev K₁ - K₂ honeycomb magnet

Ioannis Rousochatzakis, Johannes Reuther, Ronny Thomale, Stephan Rachel, N. B. Perkins

Physics and Astronomy (Twin Cities)

Research output: Contribution to journal › Article › peer-review

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Abstract

We show that the topological Kitaev spin liquid on the honeycomb lattice is extremely fragile against the second-neighbor Kitaev coupling K₂, which has recently been shown to be the dominant perturbation away from the nearest-neighbor model in iridate Na₂IrO₃, and may also play a role in α-RuCl₃ and Li₂IrO₃. This coupling naturally explains the zigzag ordering (without introducing unrealistically large longer-range Heisenberg exchange terms) and the special entanglement between real and spin space observed recently in Na₂IrO₃. Moreover, the minimal K₁ - K₂ model that we present here holds the unique property that the classical and quantum phase diagrams and their respective order-by-disorder mechanisms are qualitatively different due to the fundamentally different symmetries of the classical and quantum counterparts.

Original language	English (US)
Article number	041035
Journal	Physical Review X
Volume	5
Issue number	4
DOIs	https://doi.org/10.1103/PhysRevX.5.041035
State	Published - 2015

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abstract = "We show that the topological Kitaev spin liquid on the honeycomb lattice is extremely fragile against the second-neighbor Kitaev coupling K2, which has recently been shown to be the dominant perturbation away from the nearest-neighbor model in iridate Na2IrO3, and may also play a role in α-RuCl3 and Li2IrO3. This coupling naturally explains the zigzag ordering (without introducing unrealistically large longer-range Heisenberg exchange terms) and the special entanglement between real and spin space observed recently in Na2IrO3. Moreover, the minimal K1 - K2 model that we present here holds the unique property that the classical and quantum phase diagrams and their respective order-by-disorder mechanisms are qualitatively different due to the fundamentally different symmetries of the classical and quantum counterparts.",

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AU - Perkins, N. B.

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AB - We show that the topological Kitaev spin liquid on the honeycomb lattice is extremely fragile against the second-neighbor Kitaev coupling K2, which has recently been shown to be the dominant perturbation away from the nearest-neighbor model in iridate Na2IrO3, and may also play a role in α-RuCl3 and Li2IrO3. This coupling naturally explains the zigzag ordering (without introducing unrealistically large longer-range Heisenberg exchange terms) and the special entanglement between real and spin space observed recently in Na2IrO3. Moreover, the minimal K1 - K2 model that we present here holds the unique property that the classical and quantum phase diagrams and their respective order-by-disorder mechanisms are qualitatively different due to the fundamentally different symmetries of the classical and quantum counterparts.

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Phase diagram and quantum order by disorder in the kitaev K₁ - K₂ honeycomb magnet

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