Add to ORKGTopological Dirac semimetals with accidental band touching between conduction and valence bands protected by time reversal and inversion symmetry are at the frontier of modern condensed matter research. A majority of discovered topological semimetals are nonmagnetic and conserve time reversal symmetry. Here we report the experimental discovery of an antiferromagnetic topological nodal-line semimetallic state in GdSbTe using angle-resolved photoemission spectroscopy. Our systematic study reveals the detailed electronic structure of the paramagnetic state of antiferromagnetic GdSbTe. We observe the presence of multiple Fermi surface pockets including a diamond-shape, and small circular pockets around the zone center and high symmetry X points...
The experimental discovery of the topological Dirac semimetal establishes a platform to search for v...
Topological semimetals host electronic structures with several band-contact points or lines and are ...
Recently, magnetic topological quantum materials have attracted substantial research attention due t...
Topological Dirac semimetals with accidental band touching between conduction and valence bands prot...
Topological insulators are insulators in the bulk but permit spin-polarized electrons to flow on the...
The search of new topological phases of matter is one of the new directions in condensed matter phys...
Unveiling new topological phases of matter is one of the current objectives in condensed matter phys...
The topological nodal-line semimetal state, serving as a fertile ground for various topological quan...
Nodal semimetals host either degenerate points (Dirac/Weyl points) or lines whose band topology in B...
Parity-time symmetry plays an essential role for the formation of Dirac states in Dirac semimetals. ...
Topological semimetals can support one-dimensional Fermi lines or zero-dimensional Weyl points in mo...
Topological nodal semimetal (TNS), characterized by its touching conduction and valence bands, is a ...
The topological nodal-line semimetal state, serving as a fertile ground for various topological quan...
[[abstract]]Topological semimetals can support one-dimensional Fermi lines or zero-dimensional Weyl ...
A topological insulator (TI) is a novel electronic state of quantum matter characterize by a bulk in...
The experimental discovery of the topological Dirac semimetal establishes a platform to search for v...
Topological semimetals host electronic structures with several band-contact points or lines and are ...
Recently, magnetic topological quantum materials have attracted substantial research attention due t...
Topological Dirac semimetals with accidental band touching between conduction and valence bands prot...
Topological insulators are insulators in the bulk but permit spin-polarized electrons to flow on the...
The search of new topological phases of matter is one of the new directions in condensed matter phys...
Unveiling new topological phases of matter is one of the current objectives in condensed matter phys...
The topological nodal-line semimetal state, serving as a fertile ground for various topological quan...
Nodal semimetals host either degenerate points (Dirac/Weyl points) or lines whose band topology in B...
Parity-time symmetry plays an essential role for the formation of Dirac states in Dirac semimetals. ...
Topological semimetals can support one-dimensional Fermi lines or zero-dimensional Weyl points in mo...
Topological nodal semimetal (TNS), characterized by its touching conduction and valence bands, is a ...
The topological nodal-line semimetal state, serving as a fertile ground for various topological quan...
[[abstract]]Topological semimetals can support one-dimensional Fermi lines or zero-dimensional Weyl ...
A topological insulator (TI) is a novel electronic state of quantum matter characterize by a bulk in...
The experimental discovery of the topological Dirac semimetal establishes a platform to search for v...
Topological semimetals host electronic structures with several band-contact points or lines and are ...
Recently, magnetic topological quantum materials have attracted substantial research attention due t...