Reinvestigating the surface and bulk electronic properties of Cd3As2

Cd3As2 is widely considered among the few materials realizing the three-dimensional (3D) Dirac semimetal phase. Linearly dispersing states, responsible for the ultrahigh charge mobility, have been reported by several angle-resolved photoelectron spectroscopy (ARPES) investigations. However, in spite...

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Veröffentlicht in:Physical review. B 2018-04, Vol.97 (16)
Hauptverfasser: Roth, S, Lee, H, Sterzi, A, Zacchigna, M, Politano, A, Sankar, R, Chou, F C, Di Santo, G, Petaccia, L, Yazyev, O V, Crepaldi, A
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Sprache:eng
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Zusammenfassung:Cd3As2 is widely considered among the few materials realizing the three-dimensional (3D) Dirac semimetal phase. Linearly dispersing states, responsible for the ultrahigh charge mobility, have been reported by several angle-resolved photoelectron spectroscopy (ARPES) investigations. However, in spite of the general agreement between these studies, some details are at odds. From scanning tunneling microscopy and optical experiments under magnetic field, a puzzling scenario emerges in which multiple states show linear dispersion at different energy scales. Here, we solve this apparent controversy by reinvestigating the electronic properties of the (112) surface of Cd3As2 by combining ARPES and theoretical calculations. We disentangle the presence of massive and massless metallic bulk and surface states, characterized by different symmetries. Our systematic experimental and theoretical study clarifies the complex band dispersion of Cd3As2 by extending the simplistic 3D Dirac semimetal model to account for multiple bulk and surface states crossing the Fermi level, and thus contributing to the unique material transport properties.
ISSN:2469-9950
2469-9969
DOI:10.1103/PhysRevB.97.165439