Thermal Transport Study of the Dimerized Quantum Magnet Strontium Copper Borate

Colin Tinsman; Ziji Xiang; Lu Chen; Dmitri Mihaliov; Sara Haravifard; Lu Li

Thermal Transport Study of the Dimerized Quantum Magnet Strontium Copper Borate

ORAL

Abstract

Strontium Copper Borate (SrCu₂(BO₃)₂, or SCBO) has a unique crystal structure in which pairs of copper atoms with spin-1/2 states hybridize to form spin-1 dimers, making it a realization of the Shastry Sutherland model. This compound has a singlet ground state at each dimer seperated by an energy gap from a triplet excitated state. It is predicted that this system should contain topologically-protected edge states consisting of itinerant triplets known as triplons, making SCBO a bosonic topological insulator. Since these triplons do not carry charge, thermal measurements are required to observe them. We report on the field-dependent thermal conductivity of this material as well as our progress in observing triplon states using the thermal Hall effect.

March 7, 2019, 3:54 PM – March 7, 2019, 4:06 PM

Presenters

Colin Tinsman

Physics, University of Michigan, Department of Physics, University of Michigan, University of Michigan

Authors

Colin Tinsman

Physics, University of Michigan, Department of Physics, University of Michigan, University of Michigan
Ziji Xiang

Physics, University of Michigan, Department of Physics, University of Michigan, University of Michigan
Lu Chen

Physics, University of Michigan, Department of Physics, University of Michigan, University of Michigan
Dmitri Mihaliov

Physics, University of Michigan, Department of Physics, University of Michigan
Sara Haravifard

Physics, Duke University, Department of Physics, Duke University, Duke University, Duke Univ
Lu Li

University of Michigan, Physics, University of Michigan, Department of Physics, University of Michigan