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FM: Fachverband Funktionsmaterialien

FM 22: Focus Session: Materials Discovery III – New materials and functionalities by general principles

FM 22.9: Vortrag

Freitag, 13. März 2026, 12:00–12:15, BEY/0138

Interplay between Lattice Dynamics and Free Electrons in Polar Metals: A Chemical-Bonding Perspective — •Hiroto Kikuchi¹, Suguru Yoshida¹, Hiroshi Takatsu¹, Kantaro Murayama¹, Peter Lemmens², and Hiroshi Kageyama¹ — ¹Department of Energy and Hydrocarbon Chemistry, Graduate School of Engineering, Kyoto University, Nishikyo-ku, Kyoto 615-8510, Japan — ²Institute for Condensed Matter Physics, Technische Universitat Braunschweig; Braunschweig 38106, Germany

Polar-nonpolar (P-NP) transitions in metals such as LiOsO₃ show that polar order can coexist with metallicity, defining "polar metals" as a new class of quantum materials. However, the microscopic mechanism remains under debate, with competing scenarios invoking electron-phonon coupling and coordination bonding.

We recently found that metallic LiReO₃, isostructural with LiOsO₃ and adopting the LiNbO₃-type structure, undergoes a P-NP structural transition at T_s = 170 K. Unlike the second-order transition in LiOsO₃, LiReO₃ shows thermal hysteresis and strong lattice softening, indicating enhanced fluctuations between polar and nonpolar phases.

We investigated Raman scattering across T_s, combined with phonon calculations and crystal orbital Hamilton population (COHP) analysis, and reveals strongly redshifted LiO₆-related optical phonons in LiReO₃ compared with LiOsO₃. These results, supported by computed force constants and bond strengths, provide a unified picture of phonon softening and polar stability in metallic LiReO₃.

Keywords: Polar matal; Functional materials; Oxides