Topological nodal line semimetals
TLDR
In this article, the authors review the recent progress in the study of topological nodal line semimetals in 3D and discuss different scenarios that when the protecting symmetry is broken, how a topologically topologically protected semimetal becomes Weyl, Dirac, and other topological phases, and discuss the possible physical effects accessible to experimental probes in these materials.Abstract:Â
We review the recent, mainly theoretical, progress in the study of topological nodal line semimetals in three dimensions. In these semimetals, the conduction and the valence bands cross each other along a one-dimensional curve in the three-dimensional Brillouin zone, and any perturbation that preserves a certain symmetry group (generated by either spatial symmetries or time-reversal symmetry) cannot remove this crossing line and open a full direct gap between the two bands. The nodal line(s) is hence topologically protected by the symmetry group, and can be associated with a topological invariant. In this review, (i) we enumerate the symmetry groups that may protect a topological nodal line; (ii) we write down the explicit form of the topological invariant for each of these symmetry groups in terms of the wave functions on the Fermi surface, establishing a topological classification; (iii) for certain classes, we review the proposals for the realization of these semimetals in real materials; (iv) we discuss different scenarios that when the protecting symmetry is broken, how a topological nodal line semimetal becomes Weyl semimetals, Dirac semimetals, and other topological phases; and (v) we discuss the possible physical effects accessible to experimental probes in these materials.read more
Citations
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MonographDOI
Berry Phases in Electronic Structure Theory: Electric Polarization, Orbital Magnetization and Topological Insulators
TL;DR: In this paper, a pedagogical introduction to the important role of Berry phases and curvatures in the physics of electrons in solids is provided, including electric polarization, anomalous Hall conductivity, and the nature of the topological insulating state.
Journal ArticleDOI
Large anomalous Hall current induced by topological nodal lines in a ferromagnetic van der Waals semimetal.
Kyoo Kim,Junho Seo,Eunwoo Lee,Kyung-Tae Ko,Byung-Ho Kim,Bo Gyu Jang,Jong Mok Ok,Jinwon Lee,Younjung Jo,Woun Kang,Ji Hoon Shim,Changyoung Kim,Han Woong Yeom,Byung Il Min,Bohm-Jung Yang,Jun Sung Kim +15 more
TL;DR: A combined experimental and theoretical approach identifies the van der Waals material Fe3GeTe2 as a candidate ferromagnetic nodal line semimetal and extends the connections between topology and magnetism.
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Topological Sound
TL;DR: In this article, the authors review the latest efforts to explore with sound waves topological states of quantum matter in two-and three-dimensional systems where spin and valley degrees of freedom appear as highly novel ingredients to tailor the flow of sound in the form of one-way edge modes and defect-immune protected acoustic waves.
Journal ArticleDOI
Nodal surface semimetals: Theory and material realization
Weikang Wu,Ying Liu,Si Li,Si Li,Chengyong Zhong,Zhi-Ming Yu,Xian-Lei Sheng,Xian-Lei Sheng,Y. X. Zhao,Shengyuan A. Yang +9 more
TL;DR: In this paper, the authors theoretically study the three-dimensional topological semimetals with nodal surfaces protected by crystalline symmetries, and they show that in the presence of spin-orbit coupling (SOC), the conduction and valence bands cross on closed nodal surface in the Brillouin zone.
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