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Main Authors: Gatti, Gianmarco, Svaneborg, Amalie H., Bing, Wu, Siemann, Gesa-R., Mortensen, Anders S., Kushwaha, Naina, Rigden, Jennifer, Svaneborg, Jakob K., Watson, Matthew D., Kim, Timur K., Sanders, Charlotte E., Thygesen, Kristian S., Sofer, Zdenek, Hofmann, Philip
Format: Preprint
Published: 2026
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Online Access:https://arxiv.org/abs/2604.20540
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author Gatti, Gianmarco
Svaneborg, Amalie H.
Bing, Wu
Siemann, Gesa-R.
Mortensen, Anders S.
Kushwaha, Naina
Rigden, Jennifer
Svaneborg, Jakob K.
Watson, Matthew D.
Kim, Timur K.
Sanders, Charlotte E.
Thygesen, Kristian S.
Sofer, Zdenek
Hofmann, Philip
author_facet Gatti, Gianmarco
Svaneborg, Amalie H.
Bing, Wu
Siemann, Gesa-R.
Mortensen, Anders S.
Kushwaha, Naina
Rigden, Jennifer
Svaneborg, Jakob K.
Watson, Matthew D.
Kim, Timur K.
Sanders, Charlotte E.
Thygesen, Kristian S.
Sofer, Zdenek
Hofmann, Philip
contents The bulk and surface electronic structure of MoAlB(010) is studied by a combination of angle-resolved photoemission spectroscopy and density functional calculations. The observed bulk Fermi-level crossings agree with the previously reported bulk Fermi surface of the material. Additionally, we find several surface states in the wide projected bulk band gaps around the Fermi energy. The surface states differ in their stability under residual-gas exposure in the vacuum system and in the magnitude of their Rashba-type spin-orbit splitting. We explain this in terms of their elemental and orbital character. A surface state arising from Al dangling bonds is sensitive to surface contamination, whereas a mainly Mo-derived surface state exhibits the stronger spin-orbit splitting. The surface states show symmetry-enforced crossings near the $\bar{\mathrm{S}}$ point of the surface Brillouin zone. These are protected by the mirror-symmetry elements of the p2mm wallpaper group.
format Preprint
id arxiv_https___arxiv_org_abs_2604_20540
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Bulk and surface electronic structure of MoAlB(010)
Gatti, Gianmarco
Svaneborg, Amalie H.
Bing, Wu
Siemann, Gesa-R.
Mortensen, Anders S.
Kushwaha, Naina
Rigden, Jennifer
Svaneborg, Jakob K.
Watson, Matthew D.
Kim, Timur K.
Sanders, Charlotte E.
Thygesen, Kristian S.
Sofer, Zdenek
Hofmann, Philip
Materials Science
The bulk and surface electronic structure of MoAlB(010) is studied by a combination of angle-resolved photoemission spectroscopy and density functional calculations. The observed bulk Fermi-level crossings agree with the previously reported bulk Fermi surface of the material. Additionally, we find several surface states in the wide projected bulk band gaps around the Fermi energy. The surface states differ in their stability under residual-gas exposure in the vacuum system and in the magnitude of their Rashba-type spin-orbit splitting. We explain this in terms of their elemental and orbital character. A surface state arising from Al dangling bonds is sensitive to surface contamination, whereas a mainly Mo-derived surface state exhibits the stronger spin-orbit splitting. The surface states show symmetry-enforced crossings near the $\bar{\mathrm{S}}$ point of the surface Brillouin zone. These are protected by the mirror-symmetry elements of the p2mm wallpaper group.
title Bulk and surface electronic structure of MoAlB(010)
topic Materials Science
url https://arxiv.org/abs/2604.20540