Physical Review Research (Dec 2020)

Magnetic excitations in an ionic spin-chain system with a nonmagnetic ferroelectric instability

  • K. Sunami,
  • Y. Sakai,
  • R. Takehara,
  • H. Adachi,
  • K. Miyagawa,
  • S. Horiuchi,
  • K. Kanoda

DOI
https://doi.org/10.1103/PhysRevResearch.2.043333
Journal volume & issue
Vol. 2, no. 4
p. 043333

Abstract

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Cross-correlation between magnetism and dielectric is expected to offer distinct emergent phenomena. Here, magnetic excitations in the organic donor-acceptor spin-chain system, tetrathiafulvalene-bromanil (TTF-BA), with a ferroelectric ground state is investigated by ^{1}H-NMR spectroscopy. A nonmagnetic transition with a ferroelectric order is marked by sharp drops in the NMR shift and the nuclear spin relaxation rate T_{1}^{−1} at 53 K. Remarkably, the analyses of the NMR shift and T_{1}^{−1} dictate that the paramagnetic spin susceptibility in TTF-BA is substantially suppressed from that expected for the one-dimensional Heisenberg spins. We propose that the spin-lattice coupling and the ferroelectric instability cooperate to promote precursory polar singlet formation in the ionic spin system with a nonmagnetic ferroelectric instability.