Unconventional ferroelectric transition in the multiferroic compound TbMnO revealed by the absence of an anomaly in -polarized phonon dispersion
マルチフェロイック物質TbMnOにおける非従来型強誘電転移
梶本 亮一 ; 佐賀山 基*; 佐々井 健蔵*; 福田 竜生 ; 筒井 智嗣*; 有馬 孝尚*; 廣田 和馬*; 三井 由佳利*; 吉澤 英樹*; Baron, A. Q. R.*; 山崎 裕一*; 十倉 好紀*
Kajimoto, Ryoichi; Sagayama, Hajime*; Sasai, Kenzo*; Fukuda, Tatsuo; Tsutsui, Satoshi*; Arima, Takahisa*; Hirota, Kazuma*; Mitsui, Yukari*; Yoshizawa, Hideki*; Baron, A. Q. R.*; Yamazaki, Yuichi*; Tokura, Yoshinori*
TbMnO exhibits a spontaneous electric polarization along concomitantly with a spiral spin ordering modulated along below = 28 K. We have performed inelastic X-ray scattering measurements on a single crystal of TbMnO to clarify whether phonon anomalies related to the ferroelectricity exist. We measured transverse modes, especially the Mn-O-Mn bending mode polarized along and propagating along , which we expect is most relevant to the ferroelectricity. However, no anomaly was found in the phonon dispersion below 50 meV across . The present result suggests that the mechanism of ferroelectricity in TbMnO is different from that of a conventional displacive-type ferroelectric. The weak coupling between electric polarization and lattice in TbMnO strongly suggests that the ferroelectricity is mainly derived from the spiral spin ordering.