Spin-resolved band structure of a densely packed Pb monolayer on Si(111)

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Autorschaft

  • C. Brand
  • S. Muff
  • Mauro Fanciulli
  • Herbert Pfnür
  • M. C. Tringides
  • Jan Hugo Dil
  • Christoph Tegenkamp

Organisationseinheiten

Externe Organisationen

  • Paul Scherrer Institut (PSI)
  • Eidgenössische Technische Hochschule Lausanne (ETHL)
  • Ames Laboratory
  • Iowa State University
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Details

OriginalspracheEnglisch
Aufsatznummer035432
FachzeitschriftPhysical Review B
Jahrgang96
Ausgabenummer3
PublikationsstatusVeröffentlicht - 24 Juli 2017

Abstract

Monolayer structures of Pb on Si(111) attracted recently considerable interest as superconductivity was found in these truly two-dimensional (2D) structures. In this study, we analyzed the electronic surface band structure of the so-called striped incommensurate Pb phase with 43 ML coverage by means of spin-resolved photoemission spectroscopy. Our results fully agree with density functional theory calculations done by Ren et al. [Phys. Rev. B 94, 075436 (2016)1098-012110.1103/PhysRevB.94.075436]. We observe a local Zeeman-type splitting of a fully occupied and spin-polarized surface band at the K̄3 points. The growth of this densely packed Pb structure results in the formation of imbalanced rotational domains, which triggered the detection of C3v symmetry forbidden spin components for surface states around the Fermi energy. Moreover, the Fermi surface of the metallic surface state of this phase is Rashba spin split and revealed a pronounced warping. However, the 2D nesting vectors are incommensurate with the atomic structure, thus keeping this system rather immune against charge density wave formation and possibly enabling a superconducting behavior.

ASJC Scopus Sachgebiete

Zitieren

Spin-resolved band structure of a densely packed Pb monolayer on Si(111). / Brand, C.; Muff, S.; Fanciulli, Mauro et al.
in: Physical Review B, Jahrgang 96, Nr. 3, 035432, 24.07.2017.

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Brand, C, Muff, S, Fanciulli, M, Pfnür, H, Tringides, MC, Dil, JH & Tegenkamp, C 2017, 'Spin-resolved band structure of a densely packed Pb monolayer on Si(111)', Physical Review B, Jg. 96, Nr. 3, 035432. https://doi.org/10.1103/PhysRevB.96.035432
Brand, C., Muff, S., Fanciulli, M., Pfnür, H., Tringides, M. C., Dil, J. H., & Tegenkamp, C. (2017). Spin-resolved band structure of a densely packed Pb monolayer on Si(111). Physical Review B, 96(3), Artikel 035432. https://doi.org/10.1103/PhysRevB.96.035432
Brand C, Muff S, Fanciulli M, Pfnür H, Tringides MC, Dil JH et al. Spin-resolved band structure of a densely packed Pb monolayer on Si(111). Physical Review B. 2017 Jul 24;96(3):035432. doi: 10.1103/PhysRevB.96.035432
Brand, C. ; Muff, S. ; Fanciulli, Mauro et al. / Spin-resolved band structure of a densely packed Pb monolayer on Si(111). in: Physical Review B. 2017 ; Jahrgang 96, Nr. 3.
Download
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AU - Brand, C.

AU - Muff, S.

AU - Fanciulli, Mauro

AU - Pfnür, Herbert

AU - Tringides, M. C.

AU - Dil, Jan Hugo

AU - Tegenkamp, Christoph

PY - 2017/7/24

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N2 - Monolayer structures of Pb on Si(111) attracted recently considerable interest as superconductivity was found in these truly two-dimensional (2D) structures. In this study, we analyzed the electronic surface band structure of the so-called striped incommensurate Pb phase with 43 ML coverage by means of spin-resolved photoemission spectroscopy. Our results fully agree with density functional theory calculations done by Ren et al. [Phys. Rev. B 94, 075436 (2016)1098-012110.1103/PhysRevB.94.075436]. We observe a local Zeeman-type splitting of a fully occupied and spin-polarized surface band at the K̄3 points. The growth of this densely packed Pb structure results in the formation of imbalanced rotational domains, which triggered the detection of C3v symmetry forbidden spin components for surface states around the Fermi energy. Moreover, the Fermi surface of the metallic surface state of this phase is Rashba spin split and revealed a pronounced warping. However, the 2D nesting vectors are incommensurate with the atomic structure, thus keeping this system rather immune against charge density wave formation and possibly enabling a superconducting behavior.

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