Spin-liquid polymorphism in a correlated electron system on the threshold of superconductivity

Igor Zaliznyak, Andrei T. Savici, Mark Lumsden, Alexei Tsvelik, Rongwei Hu, Cedomir Petrovic

Research output: Contribution to journalArticlepeer-review

31 Scopus citations

Abstract

We report neutron scattering measurements which reveal spin-liquid polymorphism in an "11" iron chalcogenide superconductor. It occurs when a poorly metallic magnetic state of FeTe is tuned toward superconductivity by substitution of a small amount of tellurium with isoelectronic sulfur. We observe a liquid-like magnetic response, which is described by the coexistence of two disordered magnetic phases with different local structures whose relative abundance depends on temperature. One is the ferromagnetic (FM) plaquette phase observed in undoped, nonsuperconducting FeTe, which preserves the C4 symmetry of the underlying square lattice and is favored at high temperatures, whereas the other is the antiferromagnetic plaquette phase with broken C4 symmetry, which emerges with doping and is predominant at low temperatures. These findings suggest the coexistence of and competition between two distinct liquid states, and a liquid-liquid phase transformation between these states, in the electronic spin system of FeTe1-x(S,Se)x. We have thus discovered the remarkable physics of competing spin-liquid polymorphs in a correlated electron system approaching superconductivity. Our results facilitate an understanding of large swaths of recent experimental data in unconventional superconductors. In particular, the phase with lower C2 local symmetry, whose emergence precedes superconductivity, naturally accounts for a propensity for forming electronic nematic states which have been observed experimentally, in cuprate and iron-based superconductors alike.

Original languageEnglish
Pages (from-to)10316-10320
Number of pages5
JournalProceedings of the National Academy of Sciences of the United States of America
Volume112
Issue number33
DOIs
StatePublished - Aug 18 2015

Keywords

  • Magnetism
  • Neutron scattering
  • Polymorphism
  • Spin liquid
  • Superconductivity

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