Altermagnetic Polar Metallic phase in Ultra-Thin Epitaxially-Strained RuO2 Films

arXiv - PHYS - Other Condensed Matter Pub Date : 2024-05-09 DOI:arxiv-2405.05838

Seung Gyo Jeong, In Hyeok Choi, Sreejith Nair, Luca Buiarelli, Bita Pourbahari, Jin Young Oh, Nabil Bassim, Ambrose Seo, Woo Seok Choi, Rafael M. Fernandes, Turan Birol, Liuyan Zhao, Jong Seok Lee, Bharat Jalan

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Abstract

Altermagnetism refers to a wide class of compensated magnetic orders featuring magnetic sublattices with opposite spins related by rotational symmetry rather than inversion or translational operations, resulting in non-trivial spin splitting and high-order multipolar orders. Here, by combining theoretical analysis, electrical transport, X-ray and optical spectroscopies, and nonlinear optical measurements, we establish a phase diagram in hybrid molecular beam epitaxy-grown RuO2/TiO2 (110) films, mapping the broken symmetries along the altermagnetic/electronic/structural phase transitions as functions of film thickness and temperature. This phase diagram features a novel altermagnetic metallic polar phase in strained 2 nm samples, extending the concept of multiferroics to altermagnetic systems. These results provide a comprehensive understanding of altermagnetism upon epitaxial heterostructure design for emergent novel phases with multifunctionalities.

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超薄外延应变 RuO2 薄膜中的异磁极金属相

反向磁性指的是一类广泛的补偿磁性阶，其磁性子晶格具有通过旋转对称性而非反转或平移操作联系起来的相反自旋，从而产生非三维自旋分裂和高阶多极阶。在这里，我们结合理论分析、电输运、X 射线和光学光谱以及非线性光学测量，建立了混合分子束外延生长的 RuO2/TiO2 (110) 薄膜的相图，绘制了沿膜厚和温度函数的变磁/电子/结构相变的破碎对称性。该相图的特点是在应变 2 nm 样品中存在一个高级变磁金属极性相，从而将多铁物的概念扩展到变磁系统。这些结果使人们对外延异质结构设计中出现的具有多功能性的新型相的改磁性有了全面的了解。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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arXiv - PHYS - Other Condensed Matter

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