由于磁交换场导致单层WSe中谷分裂增强。

Enhanced valley splitting in monolayer WSe due to magnetic exchange field.

作者信息

Zhao Chuan, Norden Tenzin, Zhang Peiyao, Zhao Puqin, Cheng Yingchun, Sun Fan, Parry James P, Taheri Payam, Wang Jieqiong, Yang Yihang, Scrace Thomas, Kang Kaifei, Yang Sen, Miao Guo-Xing, Sabirianov Renat, Kioseoglou George, Huang Wei, Petrou Athos, Zeng Hao

机构信息

Department of Physics, University at Buffalo, State University of New York, Buffalo, New York 14260, USA.

Key Laboratory of Flexible Electronics and Institute of Advanced Materials, Jiangsu National Synergetic Innovation Center for Advanced Materials, Nanjing Technical University, Nanjing 211816, China.

出版信息

Nat Nanotechnol. 2017 Aug;12(8):757-762. doi: 10.1038/nnano.2017.68. Epub 2017 May 1.

DOI:10.1038/nnano.2017.68

PMID:28459469

Abstract

Exploiting the valley degree of freedom to store and manipulate information provides a novel paradigm for future electronics. A monolayer transition-metal dichalcogenide (TMDC) with a broken inversion symmetry possesses two degenerate yet inequivalent valleys, which offers unique opportunities for valley control through the helicity of light. Lifting the valley degeneracy by Zeeman splitting has been demonstrated recently, which may enable valley control by a magnetic field. However, the realized valley splitting is modest (∼0.2 meV T). Here we show greatly enhanced valley spitting in monolayer WSe, utilizing the interfacial magnetic exchange field (MEF) from a ferromagnetic EuS substrate. A valley splitting of 2.5 meV is demonstrated at 1 T by magnetoreflectance measurements and corresponds to an effective exchange field of ∼12 T. Moreover, the splitting follows the magnetization of EuS, a hallmark of the MEF. Utilizing the MEF of a magnetic insulator can induce magnetic order and valley and spin polarization in TMDCs, which may enable valleytronic and quantum-computing applications.

摘要

利用谷自由度来存储和操纵信息为未来电子学提供了一种新的范例。具有破缺反演对称性的单层过渡金属二硫属化物（TMDC）拥有两个简并但不等价的谷，这为通过光的螺旋度进行谷控制提供了独特的机会。最近已经证明通过塞曼分裂来消除谷简并，这可能使磁场能够控制谷。然而，实现的谷分裂程度较小（约0.2 meV/T）。在此，我们展示了利用来自铁磁EuS衬底的界面磁交换场（MEF）在单层WSe₂中实现了大幅增强的谷分裂。通过磁致反射测量在1 T时展示了2.5 meV的谷分裂，这对应于约12 T的有效交换场。此外，分裂随EuS的磁化而变化，这是MEF的一个标志。利用磁绝缘体的MEF可以在TMDC中诱导磁序以及谷和自旋极化，这可能推动谷电子学和量子计算应用的发展。

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由于磁交换场导致单层WSe中谷分裂增强。

Enhanced valley splitting in monolayer WSe due to magnetic exchange field.

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