Hidden spin polarization in the centrosymmetric MoS_2 crystal revealed via elliptically polarized terahertz emission

Yuanyuan Huang; Arkady Yartsev; Shan Guan; Lipeng Zhu; Qiyi Zhao; Zehan Yao; Chuan He; Longhui Zhang; Jintao Bai; Jun-wei Luo; Xinlong Xu

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Hidden spin polarization in the centrosymmetric MoS_2 crystal revealed via elliptically polarized terahertz emission

机译：通过椭圆偏振的太极度发射揭示了CentroSymmetric MOS_2晶体中的隐藏自旋极化

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The spin polarization in centrosymmetric molybdenum disulfide (MoS_2) bulk crystal is recorded by helicity dependent photocurrent exposed as elliptically polarized terahertz (THz) emission. We assign this observation to hidden spin polarization due to the local Dresselhaus effect induced by the molybdenum atomic site asymmetry. This spin polarization induces ultrafast optically controlled circular photogalvanic current that results in elliptically polarized THz emission. Furthermore, this THz radiation exhibits a helicity dependent bleaching effect under opposite circularly polarized excitations due to the spin relaxation. Our results demonstrate the viability of all-optical control of hidden spin polarization in two-dimensional materials and propose the applicability of the THz emission spectroscopy as a sensitive and contactless method to study spintronic physics in two-dimensional materials.

机译：通过作为椭圆偏振的太赫兹（THz）发射暴露的螺旋依赖性光电流记录偏差钼二硫化钼（MOS_2）散晶中的旋转偏振。由于钼原子位点不对称诱导的局部纹状体效应，我们将该观察分配到隐藏的自旋极化。这种自旋偏振引起超快光控制的圆形光学电流，导致椭圆偏振的THz发射。此外，由于旋转松弛，该THz辐射在相反的圆极化激发下表现出螺旋依赖性漂白效果。我们的结果证明了二维材料中隐藏的自旋极化的全光控制的可行性，并提出了THZ发射光谱的适用性作为研究二维材料中旋转性物理学的敏感和非接触式方法。

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来源
《Physical review》 |2020年第8期|085205.1-085205.6|共6页
作者
Yuanyuan Huang; Arkady Yartsev; Shan Guan; Lipeng Zhu; Qiyi Zhao; Zehan Yao; Chuan He; Longhui Zhang; Jintao Bai; Jun-wei Luo; Xinlong Xu;
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Shaanxi Joint Lab of Graphene State Key Lab Incubation Base of Photoelectric Technology and Functional Materials International Collaborative Center on Photoelectric Technology and Nano Functional Materials Institute of Photonics & Photon-Technology Northwest University Xi'an 710069 China;

Shaanxi Joint Lab of Graphene State Key Lab Incubation Base of Photoelectric Technology and Functional Materials International Collaborative Center on Photoelectric Technology and Nano Functional Materials Institute of Photonics & Photon-Technology Northwest University Xi'an 710069 China Division of Chemical Physics and NanoLund Lund University Box 124 221 00 Lund Sweden;

Stale Key Laboratory of Superlattices and Microstructures Institute of Semiconductors Chinese Academy of Sciences Beijing 100083 China;

Shaanxi Joint Lab of Graphene State Key Lab Incubation Base of Photoelectric Technology and Functional Materials International Collaborative Center on Photoelectric Technology and Nano Functional Materials Institute of Photonics & Photon-Technology Northwest University Xi'an 710069 China;

Shaanxi Joint Lab of Graphene State Key Lab Incubation Base of Photoelectric Technology and Functional Materials International Collaborative Center on Photoelectric Technology and Nano Functional Materials Institute of Photonics & Photon-Technology Northwest University Xi'an 710069 China;

Shaanxi Joint Lab of Graphene State Key Lab Incubation Base of Photoelectric Technology and Functional Materials International Collaborative Center on Photoelectric Technology and Nano Functional Materials Institute of Photonics & Photon-Technology Northwest University Xi'an 710069 China;

Shaanxi Joint Lab of Graphene State Key Lab Incubation Base of Photoelectric Technology and Functional Materials International Collaborative Center on Photoelectric Technology and Nano Functional Materials Institute of Photonics & Photon-Technology Northwest University Xi'an 710069 China;

Shaanxi Joint Lab of Graphene State Key Lab Incubation Base of Photoelectric Technology and Functional Materials International Collaborative Center on Photoelectric Technology and Nano Functional Materials Institute of Photonics & Photon-Technology Northwest University Xi'an 710069 China;

Shaanxi Joint Lab of Graphene State Key Lab Incubation Base of Photoelectric Technology and Functional Materials International Collaborative Center on Photoelectric Technology and Nano Functional Materials Institute of Photonics & Photon-Technology Northwest University Xi'an 710069 China;

Stale Key Laboratory of Superlattices and Microstructures Institute of Semiconductors Chinese Academy of Sciences Beijing 100083 China;

Shaanxi Joint Lab of Graphene State Key Lab Incubation Base of Photoelectric Technology and Functional Materials International Collaborative Center on Photoelectric Technology and Nano Functional Materials Institute of Photonics & Photon-Technology Northwest University Xi'an 710069 China;

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1. Hidden spin polarization in the centrosymmetric MoS2 crystal revealed via elliptically polarized terahertz emission [J] . Huang Yuanyuan, Yartsev Arkady, Guan Shan, Physical review, B . 2020,第8期

机译：通过椭圆偏振的太极度发射揭示了亚柠檬型MOS2晶体中的隐藏自旋极化
2. Hidden spin polarization in nonmagnetic centrosymmetric BaNiS_2 crystal: Signatures from first principles [J] . Jagoda Slawinska, Awadhesh Narayan, Silvia Picozzi Physical review . 2016,第24期

机译：非磁性中心对称BaNiS_2晶体中的自旋极化：第一性原理的签名
3. Directional elliptically polarized terahertz emission from air plasma produced by circularly polarized intense femtosecond laser pulses [J] . Fazel Jahangiri, Masaki Hashida, Shigeki Tokita, Applied Physics Letters . 2011,第16期

机译：圆偏振强飞秒激光脉冲产生的空气等离子体产生的椭圆偏振太赫兹定向辐射
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机译：Exciton旋转状态在纳米晶体点中透露旋转偏振的共振光致发光和拉曼光谱
5. Design, Synthesis, and Characterization of New Non-Centrosymmetric Organic Crystals for Terahertz Generation [D] . Valdivia-Berroeta, Gabriel A. 2020

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8. Polarization Orientation Dependence of the Far Infrared Spectra of Oriented Single Crystals of 1,3,5-trinitro-S-triazine (RDX) using Terahertz Time-Domain Spectroscopy [R] . Whitley, V. H., Hooks, D. E., Ramos, K. J., 2009

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Hidden spin polarization in the centrosymmetric MoS_2 crystal revealed via elliptically polarized terahertz emission

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