Spin-lattice interactions through the quantum critical transition in Cu(pyz)(NO$_3$)$_2$

ORAL

Abstract

We measured the magneto-infrared response of the quasi-one-dimensional quantum Heisenberg antiferromagnet Cu(pyz)(NO$_3$)$_2$ to investigate local lattice distortions through the field-driven transition to the fully polarized magnetic state. This magnetic quantum critical transition involves changes in the out-of-plane N and C-H bending modes of pyrazine with field that directly track the magnetization. We discuss our results in terms of calculated spin densities, scaling laws, and extracted spin-phonon coupling constants, the latter of which are remarkably large due to the softness of the pyrazine ligand.

Authors

  • O. Gunaydin-Sen

    University of Tennessee

  • J. Chen

    University of Tennessee

  • J. L. Musfeldt

    University of Tennessee

  • L. C. Tung

    NHMFL, Florida State University, National High Magnetic Field Laboratory

  • Y. J. Wang

    NHMFL, Florida State University, National High Magnetic Field Laboratory

  • M. M. Turnbull

    Clark University

  • C. P. Landee

    Clark University

  • W.-H. Whangbo

    North Carolina State University, Department of Chemistry, North Carolina State University, Raleigh, North Carolina 27695-8204, U.S.A.