Quantum Spin Liquid Emerging from Antiferromagnetic Order by Introducing Disorder

Quantum Spin Liquid Emerging from Antiferromagnetic Order by Introducing Disorder

Quantum spin liquids, which are spin versions of quantum matter, have been sought after in systems with geometrical frustration. We show that disorder drives a classical magnet into a quantum spin liquid through conducting NMR experiments on an organic Mott insulator, κ-(ET)_{2}Cu[N(CN)_{2}]Cl. Anti...

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Veröffentlicht in:Physical review letters 2015-08, Vol.115 (7), p.077001-077001, Article 077001
Hauptverfasser: Furukawa, T, Miyagawa, K, Itou, T, Ito, M, Taniguchi, H, Saito, M, Iguchi, S, Sasaki, T, Kanoda, K
Format: Artikel
Sprache:eng
Schlagworte:
Antiferromagnetism
Conduction
Crystals
Disorders
Frustration
Insulators
Retarding
Spin liquid
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Zusammenfassung:Quantum spin liquids, which are spin versions of quantum matter, have been sought after in systems with geometrical frustration. We show that disorder drives a classical magnet into a quantum spin liquid through conducting NMR experiments on an organic Mott insulator, κ-(ET)_{2}Cu[N(CN)_{2}]Cl. Antiferromagnetic ordering in the pristine crystal, when irradiated by x rays, disappears. Spin freezing, spin gap, and critical slowing down are not observed, but gapless spin excitations emerge, suggesting a novel role of disorder that brings forth a quantum spin liquid from a classical ordered state.
ISSN:0031-9007
1079-7114
DOI:10.1103/physrevlett.115.077001