Many-Body Resonance in a Correlated Topological Kagome Antiferromagnet

Zhang Songtian Sonia; Yin Jia-Xin; Ikhlas Muhammad; Tien Hung-Ju; Wang Rui; Shumiya Nana; Chang Guoqing; Tsirkin Stepan S.; Shi Youguo; Yi Changjiang; Guguchia Zurab; Li Hang; Wang Wenhong; Chang Tay-Rong; Wang Ziqiang; Yang Yi-feng; Neupert Titus; Nakatsuji Satoru; Hasan M. Zahid

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Many-Body Resonance in a Correlated Topological Kagome Antiferromagnet

机译：相关拓扑kagome antiferromagnet中的许多身体共鸣

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We use scanning tunneling microscopy to elucidate the atomically resolved electronic structure in the strongly correlated kagome Weyl antiferromagnet Mn3Sn. In stark contrast to its broad single-particle electronic structure, we observe a pronounced resonance with a Fano line shape at the Fermi level resembling the many-body Kondo resonance. We find that this resonance does not arise from the step edges or atomic impurities but the intrinsic kagome lattice. Moreover, the resonance is robust against the perturbation of a vector magnetic field, but broadens substantially with increasing temperature, signaling strongly interacting physics. We show that this resonance can be understood as the result of geometrical frustration and strong correlation based on the kagome lattice Hubbard model. Our results point to the emergent many-body resonance behavior in a topological kagome magnet.

机译：我们使用扫描隧道显微镜检查，以阐明强烈相关的Kagome Weyl antiferromagnet MN3Sn中的原子分辨电子结构。在与其广泛的单粒子电子结构形成鲜明对比中，我们观察在FERMI水平上的FANO线形状的明显共振，类似于许多身体Kondo共鸣。我们发现这种共振不会产生从阶梯边缘或原子杂质，而是内在的Kagome格子。此外，该谐振对载体磁场的扰动是鲁棒的，而是基本上随着温度的增加而变宽，信号传达强烈地相互作用。我们表明，由于几何挫折和基于Kagome Lattice Hubbard模型的强烈相关性，该共振可以理解。我们的结果指出了拓扑kagome磁铁中的突出了许多身体共振行为。

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《Physical review letters》 |2020年第4期|046401.1-046401.6|共6页
作者
Zhang Songtian Sonia; Yin Jia-Xin; Ikhlas Muhammad; Tien Hung-Ju; Wang Rui; Shumiya Nana; Chang Guoqing; Tsirkin Stepan S.; Shi Youguo; Yi Changjiang; Guguchia Zurab; Li Hang; Wang Wenhong; Chang Tay-Rong; Wang Ziqiang; Yang Yi-feng; Neupert Titus; Nakatsuji Satoru; Hasan M. Zahid;
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Princeton Univ Dept Phys Lab Topol Quantum Matter & Adv Spect Princeton NJ 08544 USA;

Princeton Univ Dept Phys Lab Topol Quantum Matter & Adv Spect Princeton NJ 08544 USA;

Univ Tokyo Inst Solid State Phys Kashiwa Chiba 2778581 Japan;

Natl Cheng Kung Univ Dept Phys Tainan 701 Taiwan;

Nanjing Univ Natl Lab Solid State Microstruct Nanjing 210093 Peoples R China|Nanjing Univ Dept Phys Nanjing 210093 Peoples R China;

Princeton Univ Dept Phys Lab Topol Quantum Matter & Adv Spect Princeton NJ 08544 USA;

Princeton Univ Dept Phys Lab Topol Quantum Matter & Adv Spect Princeton NJ 08544 USA;

Univ Zurich Dept Phys CH-8057 Zurich Switzerland;

Chinese Acad Sci Beijing Natl Lab Condensed Matter Phys Beijing 100190 Peoples R China|Chinese Acad Sci Inst Phys Beijing 100190 Peoples R China|Univ Chinese Acad Sci Beijing 100049 Peoples R China;

Chinese Acad Sci Beijing Natl Lab Condensed Matter Phys Beijing 100190 Peoples R China|Chinese Acad Sci Inst Phys Beijing 100190 Peoples R China|Univ Chinese Acad Sci Beijing 100049 Peoples R China;

Paul Scherrer Inst Lab Muon Spin Spect CH-5232 Villigen Switzerland;

Chinese Acad Sci Beijing Natl Lab Condensed Matter Phys Beijing 100190 Peoples R China|Chinese Acad Sci Inst Phys Beijing 100190 Peoples R China;

Chinese Acad Sci Beijing Natl Lab Condensed Matter Phys Beijing 100190 Peoples R China|Chinese Acad Sci Inst Phys Beijing 100190 Peoples R China;

Natl Cheng Kung Univ Dept Phys Tainan 701 Taiwan;

Boston Coll Dept Phys Chestnut Hill MA 02467 USA;

Chinese Acad Sci Beijing Natl Lab Condensed Matter Phys Beijing 100190 Peoples R China|Chinese Acad Sci Inst Phys Beijing 100190 Peoples R China|Univ Chinese Acad Sci Beijing 100049 Peoples R China;

Univ Zurich Dept Phys CH-8057 Zurich Switzerland;

Univ Tokyo Inst Solid State Phys Kashiwa Chiba 2778581 Japan|Univ Tokyo Dept Phys Bunkyo Ku Tokyo 1130033 Japan|Japan Sci & Technol Agcy JST CREST 4-1-8 Honcho Kawaguchi Saitama 3320012 Japan;

Princeton Univ Dept Phys Lab Topol Quantum Matter & Adv Spect Princeton NJ 08544 USA|Lawrence Berkeley Natl Lab Mat Sci Div Berkeley CA 94720 USA;

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专利

1. Topological thermal Hall effect in frustrated kagome antiferromagnets [J] . S. A. Owerre Physical review. B, Condensed Matter And Materals Physics . 2017,第1期

机译：沮丧的kagome反铁磁体中的拓扑热霍尔效应
2. Topological thermal Hall effect in frustrated kagome antiferromagnets [J] . Owerre S. A. Physical review, B . 2017,第1期

机译：在令人沮丧的Kagome反霉菌中的拓扑热厅效果
3. Topological thermal Hall effect in frustrated kagome antiferromagnets [J] . S. A. Owerre Physical Review. B, Condensed Matter . 2017,第1a2CD期

机译：在令人沮丧的Kagome反霉菌中的拓扑热厅效果
4. Ground State Phase Diagram of Kagome Heisenberg Antiferromagnet with Dzyaloshinskii-Moriya Interaction [C] . Kallol Mondal, Charudatt Kadolkar National Conference on Frontiers in Modern Physics . 2019

机译：Kagome Heisenberg antiferromagnet与Dzyaloshinskii-Moriya互动的地面状态图
5. Topological Phases and Strongly Correlated Fermions in Many-Body Systems [D] . Ben-Zion, Daniel. 2019

机译：拓扑阶段和许多身体系统中的颗粒强烈相关
6. Magnetic resonance probing of ground state in the mixed valence correlated topological insulator SmB6 [O] . S. V. Demishev, M. I. Gilmanov, A. N. Samarin, -1

机译：价态相关拓扑绝缘子SmB6中基态的磁共振探测
7. Many-Body Resonance in a Correlated Topological Kagome Antiferromagnet [O] . Songtian Sonia Zhang, Jia-Xin Yin, Muhammad Ikhlas, 2020

机译：相关拓扑kagome antiferromagnet中的许多身体共鸣

Many-Body Resonance in a Correlated Topological Kagome Antiferromagnet

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