Kitaev exchange and field-induced quantum spin-liquid states in honeycomb α-RuCl3

Yadav, Ravi; Bogdanov, Nikolay A.; Katukuri, Vamshi M.; Nishimoto, Sei‐ichi; Brink, Jeroen van den; Hozoi, Liviu

doi:10.1038/srep37925

Cited by 277 publications

(348 citation statements)

References 55 publications

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“…While indications for a field-induced spin liquid in Heisenberg-Kitaev models were found in numerical simulations in Ref. [19], a full theory is not available. Alternatively, the phase above H c could be adiabatically connected to the high-field limit, and the soft mode would then correspond to a high-field magnon.…”

Section: Figmentioning

confidence: 99%

“…Interestingly, NMR measurements with fields in the specific direction H c performed down to 4 K have indicated the formation of a sizable * Corresponding author: a.wolter@ifw-dresden.de spin gap at high fields [30]. Additionally, numerical exactdiagonalization studies of an extended Heisenberg-Kitaev model found hints for a transition from zigzag magnetic ordering to a spin-liquid state when applying a magnetic field [19].…”

mentioning

confidence: 99%

“…The magnetic interactions between the Ru 3+ magnetic moments are believed to be described by a variant of the Heisenberg-Kitaev model [10]: Electronic-structure calculations indicate that the Kitaev interaction in α-RuCl 3 is ferromagnetic and indeed defines the largest exchange energy scale [19,20]. However, the debate about the spin model most appropriate for α-RuCl 3 -likely to include Heisenberg and off-diagonal exchange interactions, possibly also beyond nearest neighbors-has not been settled [19][20][21][22][23][24][25][26][27][28].…”

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confidence: 99%

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Field-induced quantum criticality in the Kitaev system α−RuCl3

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Section: Figmentioning

confidence: 99%

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Field-induced quantum criticality in the Kitaev system α−RuCl3

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“…We first present data of a crystal measured under 12 T field applied along the c-axis, in which case the T N is less affected by field 22,23,36 . In the paramagnetic phase, nine NMR lines are expected, given one center line and two satellites for each 35 Cl site, and three inequivalent …”

Section: Magnetization Data and Analysismentioning

confidence: 99%

High-pressure magnetization and NMR studies of α−RuCl3

et al. 2017

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We report high-pressure magnetization and 35 Cl NMR studies on α-RuCl3 with pressure up to 1.5 GPa. At low pressures, the magnetic ordering is identified by both the magnetization data and the NMR data, where the TN shows a concave shape dependence with pressure. These data suggest stacking rearrangement along the c-axis. With increasing pressure, phase separation appears prominently at P ≥ 0.45 GPa, and the magnetic volume fraction is completely suppressed at P ≥ 1.05 GPa. Meanwhile, a phase-transition-like behavior emerges at high pressures in the remaining volume by a sharp drop of magnetization M (T ) upon cooling, with the transition temperature Tx increased to 250 K at 1 GPa. The 1/ 35 T1 is reduced by over three orders of magnitude when cooled below 100 K. This characterizes a high-pressure, low-temperature phase with nearly absent static susceptibility and low-energy spin fluctuations. The nature of the high-pressure ground state is discussed, where a magnetically disordered state is proposed as a candidate state.

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“…15 For example, in α-RuCl 3 (RuCl 3 ), an actively studied KSL candidate, comprehensive ab initio computations and recent dynamical studies 16,17 suggest that ferromagnetic K and antiferromagnetic Γ interactions are dominant and comparable in magnitude, while J is negligible. [18][19][20] The balance of these and additional small further neighbor interactions causes RuCl 3 and other KSL candidates to magnetically order at low temperature; however, it is still unclear whether or not the often-large Γ interaction prefers magnetic ordering. Meanwhile, the community has attempted to revive the possibility of a KSL in RuCl 3 by applying a small magnetic field, with the effect of entering a potential spin liquid phase with no magnetization.…”

Section: Introductionmentioning

confidence: 99%

Path to stable quantum spin liquids in spin-orbit coupled correlated materials

et al. 2018

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The spin liquid phase is one of the prominent strongly interacting topological phases of matter whose unambiguous confirmation is yet to be reached despite intensive experimental efforts on numerous candidate materials. Recently, a new family of correlated honeycomb materials, in which strong spin-orbit coupling allows for various bond-dependent spin interactions, have been promising candidates to realize the Kitaev spin liquid. Here we study a model with bond-dependent spin interactions and show numerical evidence for the existence of an extended quantum spin liquid region, which is possibly connected to the Kitaev spin liquid state. These results are used to provide an explanation of the scattering continuum seen in neutron scattering on α-RuCl 3 .

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Kitaev exchange and field-induced quantum spin-liquid states in honeycomb α-RuCl3

Cited by 277 publications

References 55 publications

Field-induced quantum criticality in the Kitaev system α−RuCl3

Field-induced quantum criticality in the Kitaev system α−RuCl3

High-pressure magnetization and NMR studies of α−RuCl3

Path to stable quantum spin liquids in spin-orbit coupled correlated materials

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