二维谷电子材料中的反常谷霍尔效应

IF 1.5 4区 物理与天体物理 Q2 PHYSICS, MULTIDISCIPLINARY
Hongxin Chen, Xiaobo Yuan, Junfeng Ren
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引用次数: 0

摘要

反常谷霍尔效应(AVHE)可用于探索和利用材料中的谷自由度,在信息存储、量子计算和光电子学等领域具有潜在的应用价值。谷极霍尔效应存在于具有谷极化(VP)的二维(2D)材料中,这类二维材料通常属于六角蜂窝晶格。因此,有必要实现更易于合成和实验应用的具有 VP 的谷电材料。在这篇专题综述中,我们将介绍通过不同方法实现 VP 和 AVHE 的最新进展,即掺杂过渡金属原子、构建铁谷异质结构和寻找铁谷材料。此外,还讨论了外部调制下的二维铁电体系统。具有 AVHE 的二维峡谷电子材料表现出卓越的性能和潜在的应用前景,为实现新型低能耗器件提供了可能,促进了器件技术的进一步发展,实现了器件的微型化并增强了器件的功能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Anomalous Valley Hall Effect in Two-dimensional Valleytronic Materials
The anomalous valley Hall effect (AVHE) can be used to explore and utilize valley degrees of freedom in materials, which has potential applications in fields such as information storage, quantum computing and optoelectronics. AVHE exists in two-dimensional (2D) materials possessing valley polarization (VP), and such 2D materials usually belong to the hexagonal honeycomb lattice. Therefore, it is necessary to achieve valleytronic materials with VP that are more readily to be synthesized and applicated experimentally. In this topical review, we introduce recent developments on realizing VP as well as AVHE through different methods, i.e., doping transition metal atoms, building ferrovalley heterostructures and searching for ferrovalley materials. Moreover, 2D ferrovalley systems under external modulation are also discussed. 2D valleytronic materials with AVHE demonstrate excellent performance and potential applications, which offer the possibility of realizing novel low-energy-consuming devices, facilitating further development of device technology, realizing miniaturization and enhancing functionality of them.
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来源期刊
Chinese Physics B
Chinese Physics B 物理-物理:综合
CiteScore
2.80
自引率
23.50%
发文量
15667
审稿时长
2.4 months
期刊介绍: Chinese Physics B is an international journal covering the latest developments and achievements in all branches of physics worldwide (with the exception of nuclear physics and physics of elementary particles and fields, which is covered by Chinese Physics C). It publishes original research papers and rapid communications reflecting creative and innovative achievements across the field of physics, as well as review articles covering important accomplishments in the frontiers of physics. Subject coverage includes: Condensed matter physics and the physics of materials Atomic, molecular and optical physics Statistical, nonlinear and soft matter physics Plasma physics Interdisciplinary physics.
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