Study of spin-phonon interaction in multiferroic La0.9Bi0.1CrO3 by Raman spectroscopy

IF 2.1 4区 物理与天体物理 Q3 PHYSICS, CONDENSED MATTER
Haiyan Guo , A.A. Bokov , Yia-Chung Chang , Zuo-Guang Ye
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引用次数: 0

Abstract

Spin-phonon interaction is an interesting phenomenon that may find applications in spintronics, quantum information processing, etc. In multiferroic materials, spin-phonon interaction, if exists, may provide additional degrees of freedom that could lead to the development of novel technologies. Thus, investigating and understanding this interaction in a multiferroic material is of both fundamental and applied interests. Perovskite La1-xBixCrO3 is a mutiferroic material which turns from antiferromagnetic/antiferroelectric to ferromagnetic/ferroelectric with 10 % substitution of Bi3+ for La3+. Raman spectrum feature changes dramatically with 10 % substitution of Bi3+ for La3+ also, indicating a spin-phonon interaction. Furthermore, in La0.9Bi0.1CrO3, the ∼700 cm−1 mode is split into two Raman sub-modes. The intensity of the lower frequency (680 cm−1) sub-mode starts increasing sharply around the Néel temperature TN = 269 K upon cooling. Below TN, the monotonic change in intensity reflects the magnetic exchange modulation, resulted from the interacting with the chromium atoms oscillation at the original Cr4+ position in LaCrO3, related to the competing ferromagnetic and antiferromagnetic interactions, with the former prevailing at low temperatures. The interplay of magnetic exchange modulation interactions and chromium atoms oscillation (decreasing of the lower frequency sub-mode of the Bi3+ doping related John-Teller-like 700 cm−1 mode) coincides with the corresponding magnetic phase transition (TN), demonstrating a spin-phonon coupling in La0.9Bi0.1CrO3 which may find applications in magnonic devices.

利用拉曼光谱研究多铁性 La0.9Bi0.1CrO3 中的自旋-声子相互作用
自旋-声子相互作用是一种有趣的现象,可应用于自旋电子学、量子信息处理等领域。在多铁性材料中,如果存在自旋-声子相互作用,则可能提供额外的自由度,从而促进新型技术的发展。因此,研究和了解多铁氧体材料中的这种相互作用既有基础意义,也有应用价值。透镜材料 La1-xBixCrO3 是一种多铁性材料,当用 10% 的 Bi3+ 取代 La3+ 时,它就会从反铁磁/反铁电性转变为铁磁/铁电性。拉曼光谱特征也随着 10% 的 Bi3+ 取代 La3+ 而发生显著变化,表明存在自旋-声子相互作用。此外,在 La0.9Bi0.1CrO3 中,700 cm-1 模式被分成两个拉曼子模式。低频(680 cm-1)子模式的强度在冷却时于奈尔温度 TN = 269 K 附近开始急剧增加。在 TN 温度以下,强度的单调变化反映了磁交换调制,这是由于 LaCrO3 中原始 Cr4+ 位置上的铬原子振荡与铁磁性和反铁磁性相互作用竞争而产生的,前者在低温下占主导地位。磁交换调制相互作用与铬原子振荡的相互作用(Bi3+掺杂相关的约翰-泰勒样 700 cm-1 模式的低频子模式的减弱)与相应的磁相变(TN)相吻合,证明了 La0.9Bi0.1CrO3 中的自旋-声子耦合,这种耦合可能会在磁性器件中得到应用。
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来源期刊
Solid State Communications
Solid State Communications 物理-物理:凝聚态物理
CiteScore
3.40
自引率
4.80%
发文量
287
审稿时长
51 days
期刊介绍: Solid State Communications is an international medium for the publication of short communications and original research articles on significant developments in condensed matter science, giving scientists immediate access to important, recently completed work. The journal publishes original experimental and theoretical research on the physical and chemical properties of solids and other condensed systems and also on their preparation. The submission of manuscripts reporting research on the basic physics of materials science and devices, as well as of state-of-the-art microstructures and nanostructures, is encouraged. A coherent quantitative treatment emphasizing new physics is expected rather than a simple accumulation of experimental data. Consistent with these aims, the short communications should be kept concise and short, usually not longer than six printed pages. The number of figures and tables should also be kept to a minimum. Solid State Communications now also welcomes original research articles without length restrictions. The Fast-Track section of Solid State Communications is the venue for very rapid publication of short communications on significant developments in condensed matter science. The goal is to offer the broad condensed matter community quick and immediate access to publish recently completed papers in research areas that are rapidly evolving and in which there are developments with great potential impact.
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