The Discovery of Ferroelectricity in NH4CuCl3, a Gapless Quantum Magnet

ORAL

Abstract

Alkali metal trichlorocuprates ($M_3CuCl_3$: $M = K^+,Tl^+$ and $NH_{4}^{+}$) have received considerable attention as a unique system of gapped/gapless quantum magnets. However, their possible multiferroelectricity, as both magnets and ferroelectrics, have not been reported. Such a finding would add a new dimension to their utility as memory storage elements. Here we report the discovery of ferroelectricity in $NH_{4} CuCl_{3}$, and several of its mixed lattices with K. In this talk, we present details of our crystal growth, x-ray diffraction studies of lattice authenticity and purity, dielectric, specific heat with and without fields, magnetic susceptibility, pulsed fields, and EPR characterization of these novel materials. Theoretical studies of the new findings should be fruitful.

Authors

  • Jared Kinyon

    • Florida State University

  • E.S. Choi

    • Florida State University
    • National High Magnetic Field Laboratory
    • Natl High Magnetic Field Lab

  • Ron Clark

    • Florida State University

  • H.D. Zhou

    • Department of Physics and Astronomy, University of Tennessee
    • University of Tennessee
    • Department of Physics and Astronomy, University of Tennessee, Knoxville, Tennessee 37996, USA
    • Univ of Tennessee - Knoxville
    • U. of Tennessee
    • University of Tennessee Knoxville
    • University of Tennessee, TN, USA

  • Zhenxing Wang

    • National High Magnetic Field Laboratory

  • Kwang-yong Choi

    • Chung-Ang University

  • Hans Van Tol

    • National High Magnetic Field Laboratory

  • Naresh Dalal

    • Florida State University