Novel interplay of Fermi-surface behavior and magnetism in a low-dimensional organic conductor

J. S. Brooks; C. C. Agosta; S.J. Klepper; M. Tokumoto; N. Kinoshita; Hiroyuki Anzai; Shinya Uji; H. Aoki; A. S. Perel; G.J. Athas; D. A. Howe

doi:10.1103/physrevlett.69.156

Novel interplay of Fermi-surface behavior and magnetism in a low-dimensional organic conductor

J. S. Brooks(Clark University), C. C. Agosta(Clark University), S.J. Klepper(Clark University), M. Tokumoto(Boston University), N. Kinoshita(Clark University), Hiroyuki Anzai(Massachusetts Institute of Technology), Shinya Uji(Boston University), H. Aoki(Massachusetts Institute of Technology), A. S. Perel(Clark University), G.J. Athas(Clark University), D. A. Howe(Massachusetts Institute of Technology)

Physical Review Letters

July 6, 1992

10.1103/physrevlett.69.156

Cited by 96

Abstract

We have used the magneto-oscillatory behavior of the quasi-two-dimensional orbits in the charge-transfer organic salt (BEDT-TTF${)}_{2}$KHg(SCN${)}_{4}$ to probe its underlying magnetic ground states, which arise from the coexisting quasi-one-dimensional nature of the material. The complex nature of the oscillations results from the field dependence of these states. Our results allow comparison between several competing models which have attempted to describe the unusual properties of this material.

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