Direct 3D Mapping of the Fermi Surface and Fermi velocity

Overview

Journal Nat Mater

Date 2017 Mar 9

PMID 28272500

Citations 17

Authors

K Medjanik

O Fedchenko

S Chernov

D Kutnyakhov

M Ellguth

A Oelsner

B Schonhense

T R F Peixoto

P Lutz

C-H Min

F Reinert

S Daster

Y Acremann

J Viefhaus

W Wurth

H J Elmers

G Schonhense

Affiliations

Soon will be listed here.

Abstract

We performed a full mapping of the bulk electronic structure including the Fermi surface and Fermi-velocity distribution v(k) of tungsten. The 4D spectral function ρ(E; k) in the entire bulk Brillouin zone and 6 eV binding-energy (E) interval was acquired in ∼3 h thanks to a new multidimensional photoemission data-recording technique (combining full-field k-microscopy with time-of-flight parallel energy recording) and the high brilliance of the soft X-rays used. A direct comparison of bulk and surface spectral functions (taken at low photon energies) reveals a time-reversal-invariant surface state in a local bandgap in the (110)-projected bulk band structure. The surface state connects hole and electron pockets that would otherwise be separated by an indirect local bandgap. We confirmed its Dirac-like spin texture by spin-filtered momentum imaging. The measured 4D data array enables extraction of the 3D dispersion of all bands, all energy isosurfaces, electron velocities, hole or electron conductivity, effective mass and inner potential by simple algorithms without approximations. The high-Z bcc metals with large spin-orbit-induced bandgaps are discussed as candidates for topologically non-trivial surface states.

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