Spin-Orbit-Coupling-Induced Type-I/type-II Dirac Nodal-Line Metal in Nonsymmorphic CaSb2

Funada Kohei; Yamakage Ai; Yamashina Naoya; Kageyama Hiroshi

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Spin-Orbit-Coupling-Induced Type-I/type-II Dirac Nodal-Line Metal in Nonsymmorphic CaSb2

机译：非对杂CASB2中的旋转轨道偶联诱导的I / II型DIRAC Noder-Line金属

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From band structure calculations, we show that the nonsymmorphic crystal CaSb2 is a new topological semimetal (TSM) with an unprecedented band structure. In the absence of spin orbit coupling (SOC), CaSb2 contains several Dirac nodal points, nodal lines, and a nodal surface. When the effects of SOC are taken into account, these Dirac nodes vanish, but renewed nodal lines on the k(z) =pi/b plane protected by nonsynunorphic symmetry are induced from the surface nodes on the k(z) =pi/b plane. Distinct from previously reported TSMs, CaSb2 has both type-I and type-11 Dirac nodal lines. Experimentally, we observed a resistivity plateau under a weak magnetic field at 10K and nonsaturating giant magnetoresistance (GMR). The MR reaches the order of 10(3)% at 7 T below 10 K.

机译：从频带结构计算，我们表明非无约用晶体Casb2是具有前所未有的带结构的新型拓扑半型（TSM）。在没有自旋轨道耦合（SoC）的情况下，Casb2包含几个Dirac Nodal点，节点线和节点表面。当考虑SOC的效果时，这些DIRAC节点消失，但是从K（Z）= PI / B上的表面节点诱导不受非合成对称保护的K（Z）= PI / B平面上的重新结节线飞机。与先前报告的TSMS不同，Casb2具有I型和类型-11 Dirac Nodal线。通过实验，我们在10K和非饱和巨磁阻（GMR）下观察到电阻率平台。 MR在10 k以下的7 T达到10（3）％的阶数。

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来源
《Journal of the Physical Society of Japan》 |2019年第4期|共5页
作者
Funada Kohei; Yamakage Ai; Yamashina Naoya; Kageyama Hiroshi;
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作者单位

Kyoto Univ Grad Sch Engn Dept Energy &

Hydrocarbon Chem Nishikyo Ku Kyoto 6158510 Japan;

Nagoya Univ Dept Phys Nagoya Aichi 4648602 Japan;

Kyoto Univ Grad Sch Engn Dept Energy &

Hydrocarbon Chem Nishikyo Ku Kyoto 6158510 Japan;

Kyoto Univ Grad Sch Engn Dept Energy &

Hydrocarbon Chem Nishikyo Ku Kyoto 6158510 Japan;

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正文语种 eng
中图分类物理学;
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1. Spin-Orbit-Coupling-Induced Type-I/type-II Dirac Nodal-Line Metal in Nonsymmorphic CaSb2 [J] . Funada Kohei, Yamakage Ai, Yamashina Naoya, Journal of the Physical Society of Japan . 2019,第4期

机译：非对杂CASB2中的旋转轨道偶联诱导的I / II型DIRAC Noder-Line金属
2. Single full gap with mixed type-I and type-II superconductivity on surface of the type-II Dirac semimetal PdTe2 by point-contact spectroscopy [J] . Le Tian, Yin Lichang, Feng Zili, Physical review, B . 2019,第18期

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Spin-Orbit-Coupling-Induced Type-I/type-II Dirac Nodal-Line Metal in Nonsymmorphic CaSb2

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