2020
DOI: 10.1038/s41598-020-59200-2
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Experimental observation of drumhead surface states in SrAs3

Abstract: the topological nodal-line semimetal (tnS) is a unique class of materials with a one dimensional line node accompanied by a nearly dispersionless two-dimensional surface state. However, a direct observation of the so called drumhead surface state within current nodal-line materials is still elusive. Here, using high-resolution angle-resolved photoemission spectroscopy (ARPES) along with firstprinciples calculations, we report the observation of a topological nodal-loop (tnL) in SrAs 3 , whereas caAs 3 exhibits… Show more

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Cited by 26 publications
(21 citation statements)
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“…In both cases, an upturn of in-plane critical field has been observed and attributed to the Rashba spin splitting. Other candidates include transition metal dichacodegnide MoTe 2 in the low-symmetry T d structure [34][35][36], and half-heusler superconductors such as YPtBi with tetrahedral point group [37][38][39][40]. These two classes of materials have strong spin-orbit interaction and small Fermi energy, which enhances the supercurrent diode effect.…”
mentioning
confidence: 99%
“…In both cases, an upturn of in-plane critical field has been observed and attributed to the Rashba spin splitting. Other candidates include transition metal dichacodegnide MoTe 2 in the low-symmetry T d structure [34][35][36], and half-heusler superconductors such as YPtBi with tetrahedral point group [37][38][39][40]. These two classes of materials have strong spin-orbit interaction and small Fermi energy, which enhances the supercurrent diode effect.…”
mentioning
confidence: 99%
“…Topological nodal-line metals, including CaP 3 , provide an experimental platform to make Landau-Dirac points a reality, owing to an interplay of magnetic symmetries and breakdown. Future investigations should determine if a similar Landau-Dirac phenomenology exists for two other topological nodal-line material candidates, which host more complicated Fermi surfaces than the present study: (a) SrAs 3 , a cousin of CaP 3 with a similar crystalline structure and an experimentally-evidenced, [61][62][63] nodal-line degeneracy, and (b) the square-net compound ZrSiS, for which breakdown has been experimentally demonstrated [64]. Other platforms for Landau-Dirac points plausibly exist, owing to the diversity of magnetic space groups [65], as well as the qualitatively-distinct forms of breakdown in varied solid-state systems [31-35, 45-50, 66].…”
mentioning
confidence: 68%
“…This requirement is ideally met at and in the vicinity of EF due to the opposite spin splitting of the conduction and valence bands, as discussed earlier. Since this crossing does not require any other symmetry operation, it can form a closed-loop nodal line within the mirror plane 2,43,44 (Fig. 4c).…”
mentioning
confidence: 99%