Spin-orbit band gaps and destruction of Dirac cones

Yakovkin I. N.

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Spin-orbit band gaps and destruction of Dirac cones

机译：自旋轨道带隙和狄拉克锥的破坏

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摘要

The relativistic band structures of the IV group honeycomb monolayers, from graphene to plumbene (C-Si-Ge-Sn-Pb), have been calculated within DFT in Local Density Approximation (LDA). Basing on the obtained results, we suggest that the spin-orbit coupling leads to opening of the band gaps and therefore will unavoidably cause the destruction of the perfect shape of Dirac cones which is responsible for the existence of the massless Fermions. The applicability of ordinary non-relativistic DFT calculations of bands for graphene-like layered structures is discussed in this regard.

机译：IV组蜂窝单层从石墨烯到铅（C-Si-Ge-Sn-Pb）的相对论带结构已在DFT中以局部密度近似（LDA）进行了计算。根据获得的结果，我们认为自旋轨道耦合导致带隙的打开，因此将不可避免地引起狄拉克锥的完美形状的破坏，这是无质量费米子的存在的原因。在这方面，讨论了普通的非相对论性DFT计算带状石墨烯层状结构的适用性。

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来源
《Surface Science》 |2017年第8期|1-5|共5页
作者
Yakovkin I. N.;
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作者单位

Natl Acad Sci Ukraine, Inst Phys, Prospect Nauki 46, UA-03028 Kiev, Ukraine;

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正文语种 eng
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关键词
Layered systems; Graphene; Silicene; Stanene; Plumbene; Dirac cones; DFT;

机译：层状体系;石墨烯;硅烯;锡烯;铅;狄拉克锥;DFT;

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1. Tilted Dirac cone gapped due to spin-orbit coupling and transport properties of a 3D metallic system CaIr2Ge2 [J] . Ruszala Piotr, Winiarski Maciej J., Samsel-Czekala Malgorzata, Journal of Alloys and Compounds: An Interdisciplinary Journal of Materials Science and Solid-state Chemistry and Physics . 2021,第1期

机译：由于3D金属系统Cair2Ge2的旋转轨道耦合和运输特性，倾斜的Dirac锥螺纹覆盖
2. Noncentrosymmetric superconductor with a bulk three-dimensional Dirac cone gapped by strong spin-orbit coupling [J] . Mazhar N. Ali, Quinn D. Gibson, T. Klimczuk, Physical review . 2014,第2期

机译：具有强自旋轨道耦合的具有三维三维狄拉克锥的非中心对称超导体
3. Photonic crystals composed of virtual pillars with magnetic walls: Photonic band gaps and double Dirac cones [J] . Seong-Han Kim, Soeun Kim, Chul-Sik Kee Physical review. B, Condensed Matter And Materials Physics . 2016,第8期

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4. Dirac-like cone modulation for phononic crystals using deaf band [C] . Mustahseen M Indaleeb, Hossain Ahmed, Mohammadsadegh Saadatzi, SPIE Smart Structures + Nondestructive Evaluation Conference . 2019

机译：使用聋频带的Chinonic晶体的Dirac样锥形调制
5. A Dirac all-electron basis and spin-orbit coupled projector implementation of the Projector Augmented Wave Method for atomic systems. [D] . Conley, Kevin J. 2008

机译：原子系统投影机增强波方法的狄拉克全电子基础和自旋轨道耦合投影机实现。
6. Giant bowing of the band gap and spin-orbit splitting energy in GaP1−xBix dilute bismide alloys [O] . Zoe L. Bushell, Christopher A. Broderick, Lukas Nattermann, -1

机译：GaP1-xBix稀铋化物合金中的带隙和自旋轨道分裂能的巨大弯曲
7. Evolution of Band Topology by Competing Band Overlap and Spin-Orbit Coupling: Twin Dirac Cones in Ba$_3$SnO as a Prototype [O] . Kariyado, Toshikaze, Ogata, Masao 2017

机译：竞争带重叠和自旋轨道的带拓扑演化耦合：Twin Dirac Cones以Ba $ _3 $ snO作为原型
8. Effect of Interfaces and the Spin-Orbit Band on the Band Gaps of InAs/GaSb Superlattices Beyond the Standard Envelope-Function Approximation [R] . Szmulowicz, F. , Haugan, H. , Brown, G. J. 2004

机译：界面和自旋轨道带对标准包络函数逼近之外的Inas / Gasb超晶格带隙的影响

Spin-orbit band gaps and destruction of Dirac cones

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