Non-linear Hall effects: Mechanisms and materials

Arka Bandyopadhyay, Nesta Benno Joseph, Awadhesh Narayan
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引用次数: 0

Abstract

This review presents recent breakthroughs in the realm of nonlinear Hall effects, emphasizing central theoretical foundations and recent experimental progress. We elucidate the quantum origin of the second-order Hall response, focusing on the Berry curvature dipole, which may arise in inversion symmetry broken systems. The theoretical framework also reveals the impact of disorder scattering effects on the nonlinear response. We further discuss the possibility of obtaining nonlinear Hall responses beyond the second order. We examine symmetry-based indicators essential for the manifestation of nonlinear Hall effects in time-reversal symmetric crystals, setting the stage for a detailed exploration of theoretical models and candidate materials predicted to exhibit sizable and tunable Berry curvature dipole. We summarize groundbreaking experimental reports on measuring both intrinsic and extrinsic nonlinear Hall effects across diverse material classes. Finally, we highlight some of the other intriguing nonlinear effects, including nonlinear planar Hall, nonlinear anomalous Hall, and nonlinear spin and valley Hall effects. We conclude with an outlook on pivotal open questions and challenges, marking the trajectory of this rapidly evolving field.

Abstract Image

非线性霍尔效应:机理与材料
这篇综述介绍了非线性霍尔效应领域的最新突破,强调了核心理论基础和最新实验进展。我们阐明了二阶霍尔响应的量子起源,重点是贝里曲率偶极子,它可能出现在反转对称破缺系统中。理论框架还揭示了无序散射效应对非线性响应的影响。我们进一步讨论了获得二阶以上非线性霍尔响应的可能性。我们研究了时间反转对称晶体中非线性霍尔效应表现所必需的基于对称性的指标,为详细探索理论模型和候选材料奠定了基础,这些理论模型和候选材料预计会表现出可观且可调的贝里曲率偶极子。我们总结了测量不同材料类别的内在和外在非线性霍尔效应的突破性实验报告。最后,我们重点介绍了其他一些有趣的非线性效应,包括非线性平面霍尔、非线性反常霍尔以及非线性自旋和山谷霍尔效应。最后,我们对关键的开放性问题和挑战进行了展望,标志着这一快速发展领域的发展轨迹。
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CiteScore
2.10
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