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Effect of the sample work function on alkali metal dosing induced electronic structure change

Title
Effect of the sample work function on alkali metal dosing induced electronic structure change
Author(s)
Jung, SaegyeolIshida, YukiakiKim, MinsooNakajima, MasamichiIshida, ShigeyukiEisaki, HiroshiChoi, WoojaeKwon, Yong SeungDenlinger, JonathanOtsu, ToshioKobayashi, YoheiHuh, SoonsangKim, Changyoung
Issued Date
2021-05
Citation
Journal of Electron Spectroscopy and Related Phenomena, v.249, pp.147045
Type
Article
Author Keywords
Alkali metal dosingARPESElectronic structureIron-based superconductorsWork function
Keywords
Arsenic compoundsBarium compoundsChemical bondsCobalt compoundsElectronegativityElectronic structureIron compoundsIron-based SuperconductorsPhotoelectron spectroscopySelenium compoundsSodium compoundsWork functionAngle resolved photoemission spectroscopyChemical substitutionFermi surface topologyTransferred chargesAlkali metals
ISSN
0368-2048
Abstract
Alkali metal dosing (AMD) has been widely used as a way to control doping without chemical substitution. This technique, in combination with angle resolved photoemission spectroscopy (ARPES), often provides an opportunity to observe unexpected phenomena. However, the amount of transferred charge and the corresponding change in the electronic structure vary significantly depending on the material. Here, we report study on the correlation between the sample work function and alkali metal induced electronic structure change for three iron-based superconductors: FeSe, Ba(Fe0.94Co0.06)2As2 and NaFeAs which share a similar Fermi surface topology. Electronic structure change upon monolayer of alkali metal dosing and the sample work function were measured by ARPES. Our results show that the degree of electronic structure change is proportional to the difference between the work function of the sample and Mulliken's absolute electronegativity of the dosed alkali metal. This finding provides a possible way to estimate the AMD induced electronic structure change. © 2021 Elsevier B.V.
URI
http://hdl.handle.net/20.500.11750/15392
DOI
10.1016/j.elspec.2021.147045
Publisher
Elsevier BV
Related Researcher
  • 권용성 Kwon, Yong Seung
  • Research Interests High Tc Superconductors and magnetic materials; Thermoelectric Materials
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Department of Physics and Chemistry Quantum Functional Materials Laboratory 1. Journal Articles

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