Yuanming Lu (Ohio State Univ.)

Date: Mon. April 27th, 2026, 12:45 pm-1:45 am
Location: Rockefeller 221 (Foldy) & Zoom
Website: https://sites.google.com/view/yuan-ming-lu-physics/
Add to Google Calendar

Topological magnons: from material search to experimental realizations.

Professor Yuanming Lu

Department of Physics, The Ohio State University

(Host: Shulei Zhang)

Abstract: The discovery of topological insulators not only revealed new topological invariants encoded in many-body quantum mechanics, but also opened a new window into novel material platforms for quantum devices. With the help of ab initio density functional theory for electronic band structures, thousands of new topological electronic materials with protected surface states have been predicted. In contrast, in strongly correlated magnetic materials, density functional theory fails to reliably determine the magnetic interactions, making predictions of topology a challenging task in strongly correlated magnets. Here we present a symmetry-based approach, which predicts topological magnons in a magnetically ordered material, upon applying external perturbations such as magnetic/electric fields and/or mechanical strains. We apply this approach to carry out an efficient semi-automatic search for magnetic materials in the Bilbao Crystallographic Server (BCS). Among 198 compounds with an over 300 K transition temperature, we identify 12 magnetic insulators that support room temperature topological magnons. We further carried out a high throughput automatic search in BCS, and discovered 387 candidate materials for topological magnons, significantly expanding the pool of topological magnon materials. They provide new platforms for potential applications in topological magnon spintronics. We also discuss recent experimental efforts in identifying topological nodal magnons in MnTe2.