Topological semimetal in honeycomb lattice LnSI

Topological semimetal in honeycomb lattice LnSI

Recognized as elementary particles in the standard model, Weyl fermions in condensed matter have received growing attention. However, most of the previously reported Weyl semimetals exhibit rather complicated electronic structures that, in turn, may have raised questions regarding the underlying phy...

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Veröffentlicht in:Proceedings of the National Academy of Sciences - PNAS 2017-10, Vol.114 (40), p.10596-10600
Hauptverfasser: Nie, Simin, Xu, Gang, Prinz, Fritz B., Zhang, Shou-cheng
Format: Artikel
Sprache:eng
Schlagworte:
Condensed matter physics
Electronics
Elementary particles
Fermions
Handedness
Honeycomb construction
Lattice theory
Lattices
Metalloids
Physical Sciences
Physics
Standard model (particle physics)
Topological insulators
Topology
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Zusammenfassung:Recognized as elementary particles in the standard model, Weyl fermions in condensed matter have received growing attention. However, most of the previously reported Weyl semimetals exhibit rather complicated electronic structures that, in turn, may have raised questions regarding the underlying physics. Here, we report promising topological phases that can be realized in specific honeycomb lattices, including ideal Weyl semimetal structures, 3D strong topological insulators, and nodal-line semimetal configurations. In particular, we highlight a semimetal featuring both Weyl nodes and nodal lines. Guided by this model, we showed that GdSI, the long-perceived ideal Weyl semimetal, has two pairs of Weyl nodes residing at the Fermi level and that LuSI (YSI) is a 3D strong topological insulator with the right-handed helical surface states. Our work provides a mechanism to study topological semimetals and proposes a platform for exploring the physics of Weyl semimetals as well as related device designs.
ISSN:0027-8424
1091-6490
DOI:10.1073/pnas.1713261114