Emergent weak antilocalization and wide-temperature-range electronic phase diagram in epitaxial RuO2 thin film

凝聚态物理 相图 超导电性 霍尔效应 铁磁性 材料科学 量子霍尔效应 物理 相(物质) 磁场 量子力学
作者
Jin Liu,Lei Gao,Yu Ting Zou,Ting Lin,Mingtong Zhu,Xiang Yu Lyu,Chao Lü,Yu Qian Wang,Ai Ling Ji,Qing Zhang,Zhi Gang Cheng,Lin Gu,Ze Xian Cao,Nian Peng Lu
出处
期刊:Journal of Physics: Condensed Matter [IOP Publishing]
卷期号:35 (40): 405603-405603 被引量:4
标识
DOI:10.1088/1361-648x/ace2a5
摘要

Binary ruthenium dioxide (RuO2) has gradually attracted much attention in condensed matter physics and material sciences due to its various intriguing physical properties, such as strain-induced superconductivity, anomalous Hall effect, collinear anti-ferromagnetism, etc. However, its complex emergent electronic states and the corresponding phase diagram over a wide temperature range remain unexplored, which is critically important to understanding the underlying physics and exploring its final physical properties and functionalities. Here, through optimizing the growth conditions by using versatile pulsed laser deposition, high-quality epitaxial RuO2thin films with clear lattice structure are obtained, upon which the electronic transport is investigated, and emergent electronic states and the relevant physical properties are unveiled. Firstly, at a high-temperature range, it is the Bloch-Grüneisen state, instead of the common Fermi liquid metallic state, that dominates the electrical transport behavior. Moreover, the recently reported anomalous Hall effect is also revealed, which confirms the presence of the Berry phase in the energy band structure. More excitingly, we find that above the superconductivity transition temperature, a new positive magnetic resistance quantum coherent state with an unusual dip as well as an angel-dependent critical magnetic field emerges, which can be attributed to the weak antilocalization effect. Lastly, the complex phase diagram with multiple intriguing emergent electronic states over a wide temperature range is mapped. The results greatly promote the fundamental physics understanding of the binary oxide RuO2and provide guidelines for its practical applications and functionalities.
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