Fermi surface and effective masses in photoemission response of the (Ba1−x K x )Fe2As2 superconductor

Fermi surface and effective masses in photoemission response of the (Ba1−x K x )Fe2As2 superconductor

Abstract The angle-resolved photoemission spectra of the superconductor (Ba1−x K x )Fe2As2 have been investigated accounting coherently for spin-orbit coupling, disorder and electron correlation effects in the valence bands combined with final state, matrix element and surface effects. Our results e...

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Main Authors: Gerald Derondeau, Federico Bisti, Masaki Kobayashi, Jürgen Braun, Hubert Ebert, Victor A. Rogalev, Ming Shi, Thorsten Schmitt, Junzhang Ma, Hong Ding, Vladimir N. Strocov, Ján Minár
Format: Article
Language:English
Published: Nature Publishing Group 2017-08-01
Series:Scientific Reports
Online Access:https://doi.org/10.1038/s41598-017-09480-y
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spelling doaj-6639c60891a14a9c95f4b7ae210d53822020-12-08T02:09:45ZengNature Publishing GroupScientific Reports2045-23222017-08-01711810.1038/s41598-017-09480-yFermi surface and effective masses in photoemission response of the (Ba1−x K x )Fe2As2 superconductorGerald Derondeau0Federico Bisti1Masaki Kobayashi2Jürgen Braun3Hubert Ebert4Victor A. Rogalev5Ming Shi6Thorsten Schmitt7Junzhang Ma8Hong Ding9Vladimir N. Strocov10Ján Minár11Department Chemie, Physikalische Chemie, Universität MünchenSwiss Light Source, Paul Scherrer InstituteSwiss Light Source, Paul Scherrer InstituteDepartment Chemie, Physikalische Chemie, Universität MünchenDepartment Chemie, Physikalische Chemie, Universität MünchenSwiss Light Source, Paul Scherrer InstituteSwiss Light Source, Paul Scherrer InstituteSwiss Light Source, Paul Scherrer InstituteSwiss Light Source, Paul Scherrer InstituteBeijing National Laboratory for Condensed Matter PhysicsSwiss Light Source, Paul Scherrer InstituteNewTechnologies-Research Center, University of West BohemiaAbstract The angle-resolved photoemission spectra of the superconductor (Ba1−x K x )Fe2As2 have been investigated accounting coherently for spin-orbit coupling, disorder and electron correlation effects in the valence bands combined with final state, matrix element and surface effects. Our results explain the previously obscured origins of all salient features of the ARPES response of this paradigm pnictide compound and reveal the origin of the Lifshitz transition. Comparison of calculated ARPES spectra with the underlying DMFT band structure shows an important impact of final state effects, which result for three-dimensional states in a deviation of the ARPES spectra from the true spectral function. In particular, the apparent effective mass enhancement seen in the ARPES response is not an entirely intrinsic property of the quasiparticle valence bands but may have a significant extrinsic contribution from the photoemission process and thus differ from its true value. Because this effect is more pronounced for low photoexcitation energies, soft-X-ray ARPES delivers more accurate values of the mass enhancement due to a sharp definition of the 3D electron momentum. To demonstrate this effect in addition to the theoretical study, we show here new state of the art soft-X-ray and polarisation dependent ARPES measurments.https://doi.org/10.1038/s41598-017-09480-y
collection DOAJ
language English
format Article
sources DOAJ
author Gerald Derondeau
Federico Bisti
Masaki Kobayashi
Jürgen Braun
Hubert Ebert
Victor A. Rogalev
Ming Shi
Thorsten Schmitt
Junzhang Ma
Hong Ding
Vladimir N. Strocov
Ján Minár
spellingShingle Gerald Derondeau
Federico Bisti
Masaki Kobayashi
Jürgen Braun
Hubert Ebert
Victor A. Rogalev
Ming Shi
Thorsten Schmitt
Junzhang Ma
Hong Ding
Vladimir N. Strocov
Ján Minár
Fermi surface and effective masses in photoemission response of the (Ba1−x K x )Fe2As2 superconductor
Scientific Reports
author_facet Gerald Derondeau
Federico Bisti
Masaki Kobayashi
Jürgen Braun
Hubert Ebert
Victor A. Rogalev
Ming Shi
Thorsten Schmitt
Junzhang Ma
Hong Ding
Vladimir N. Strocov
Ján Minár
author_sort Gerald Derondeau
title Fermi surface and effective masses in photoemission response of the (Ba1−x K x )Fe2As2 superconductor
title_short Fermi surface and effective masses in photoemission response of the (Ba1−x K x )Fe2As2 superconductor
title_full Fermi surface and effective masses in photoemission response of the (Ba1−x K x )Fe2As2 superconductor
title_fullStr Fermi surface and effective masses in photoemission response of the (Ba1−x K x )Fe2As2 superconductor
title_full_unstemmed Fermi surface and effective masses in photoemission response of the (Ba1−x K x )Fe2As2 superconductor
title_sort fermi surface and effective masses in photoemission response of the (ba1−x k x )fe2as2 superconductor
publisher Nature Publishing Group
series Scientific Reports
issn 2045-2322
publishDate 2017-08-01
description Abstract The angle-resolved photoemission spectra of the superconductor (Ba1−x K x )Fe2As2 have been investigated accounting coherently for spin-orbit coupling, disorder and electron correlation effects in the valence bands combined with final state, matrix element and surface effects. Our results explain the previously obscured origins of all salient features of the ARPES response of this paradigm pnictide compound and reveal the origin of the Lifshitz transition. Comparison of calculated ARPES spectra with the underlying DMFT band structure shows an important impact of final state effects, which result for three-dimensional states in a deviation of the ARPES spectra from the true spectral function. In particular, the apparent effective mass enhancement seen in the ARPES response is not an entirely intrinsic property of the quasiparticle valence bands but may have a significant extrinsic contribution from the photoemission process and thus differ from its true value. Because this effect is more pronounced for low photoexcitation energies, soft-X-ray ARPES delivers more accurate values of the mass enhancement due to a sharp definition of the 3D electron momentum. To demonstrate this effect in addition to the theoretical study, we show here new state of the art soft-X-ray and polarisation dependent ARPES measurments.
url https://doi.org/10.1038/s41598-017-09480-y
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