High-kinetic-energy photoemission spectroscopy of Ni at 1s: 6-eV satellite at 4 eV

O. Karis; S. Svensson; J. Rusz; P. M. Oppeneer; M. Gorgoi; F. Schafers; W. Braun; W. Eberhardt; Nils Mårtensson

doi:10.1103/PhysRevB.78.233105

High-kinetic-energy photoemission spectroscopy of Ni at 1s: 6-eV satellite at 4 eV

O. Karis, S. Svensson, J. Rusz, P. M. Oppeneer, M. Gorgoi, F. Schafers, W. Braun, W. Eberhardt, Nils Mårtensson

MAX IV-laboratoriet

Forskningsoutput: Tidskriftsbidrag › Artikel i vetenskaplig tidskrift › Peer review

Sammanfattning

Electron correlations are responsible for many profound phenomena in solid-state physics. A classical example is the 6-eV satellite in the photoelectron spectrum of Ni. Until now the satellite structure has only been investigated at the L shell and more shallow levels. Here we report a high-kinetic-energy photoemission spectroscopy (HIKE) investigation of Ni metal. We present 1s and 2p photoelectron spectra, obtained using excitation energies up to 12.6 keV. Our investigation demonstrates that the energy position of the satellite relative to the main line is different for the 1s and the 2p levels. In combination with electronic structure calculations, we show that this energy shift is attributed to unique differences in the core-valence coupling for the K and L-2,L-3 shells in 3d transition metals, resulting in different screening of the core holes.

Originalspråk	engelska
Sidor (från-till)	3-3
Tidskrift	Physical Review B (Condensed Matter and Materials Physics)
Volym	78
Nummer	23
DOI	https://doi.org/10.1103/PhysRevB.78.233105
Status	Published - 2008

Ämnesklassifikation (UKÄ)

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Naturvetenskap

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10.1103/PhysRevB.78.233105

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@article{877c30143a2e473e8717970b18015086,

title = "High-kinetic-energy photoemission spectroscopy of Ni at 1s: 6-eV satellite at 4 eV",

abstract = "Electron correlations are responsible for many profound phenomena in solid-state physics. A classical example is the 6-eV satellite in the photoelectron spectrum of Ni. Until now the satellite structure has only been investigated at the L shell and more shallow levels. Here we report a high-kinetic-energy photoemission spectroscopy (HIKE) investigation of Ni metal. We present 1s and 2p photoelectron spectra, obtained using excitation energies up to 12.6 keV. Our investigation demonstrates that the energy position of the satellite relative to the main line is different for the 1s and the 2p levels. In combination with electronic structure calculations, we show that this energy shift is attributed to unique differences in the core-valence coupling for the K and L-2,L-3 shells in 3d transition metals, resulting in different screening of the core holes.",

keywords = "FERROMAGNETIC NICKEL, X-RAY PHOTOEMISSION, VALENCE-BAND, valence bands, photoelectron spectra, core levels, nickel, XPS SPECTRA, 2P",

author = "O. Karis and S. Svensson and J. Rusz and Oppeneer, {P. M.} and M. Gorgoi and F. Schafers and W. Braun and W. Eberhardt and Nils M{\aa}rtensson",

year = "2008",

doi = "10.1103/PhysRevB.78.233105",

language = "English",

volume = "78",

pages = "3--3",

journal = "Physical Review B (Condensed Matter and Materials Physics)",

issn = "1098-0121",

publisher = "American Physical Society",

number = "23",

}

TY - JOUR

T1 - High-kinetic-energy photoemission spectroscopy of Ni at 1s: 6-eV satellite at 4 eV

AU - Karis, O.

AU - Svensson, S.

AU - Rusz, J.

AU - Oppeneer, P. M.

AU - Gorgoi, M.

AU - Schafers, F.

AU - Braun, W.

AU - Eberhardt, W.

AU - Mårtensson, Nils

PY - 2008

Y1 - 2008

N2 - Electron correlations are responsible for many profound phenomena in solid-state physics. A classical example is the 6-eV satellite in the photoelectron spectrum of Ni. Until now the satellite structure has only been investigated at the L shell and more shallow levels. Here we report a high-kinetic-energy photoemission spectroscopy (HIKE) investigation of Ni metal. We present 1s and 2p photoelectron spectra, obtained using excitation energies up to 12.6 keV. Our investigation demonstrates that the energy position of the satellite relative to the main line is different for the 1s and the 2p levels. In combination with electronic structure calculations, we show that this energy shift is attributed to unique differences in the core-valence coupling for the K and L-2,L-3 shells in 3d transition metals, resulting in different screening of the core holes.

AB - Electron correlations are responsible for many profound phenomena in solid-state physics. A classical example is the 6-eV satellite in the photoelectron spectrum of Ni. Until now the satellite structure has only been investigated at the L shell and more shallow levels. Here we report a high-kinetic-energy photoemission spectroscopy (HIKE) investigation of Ni metal. We present 1s and 2p photoelectron spectra, obtained using excitation energies up to 12.6 keV. Our investigation demonstrates that the energy position of the satellite relative to the main line is different for the 1s and the 2p levels. In combination with electronic structure calculations, we show that this energy shift is attributed to unique differences in the core-valence coupling for the K and L-2,L-3 shells in 3d transition metals, resulting in different screening of the core holes.

KW - FERROMAGNETIC NICKEL

KW - X-RAY PHOTOEMISSION

KW - VALENCE-BAND

KW - valence bands

KW - photoelectron spectra

KW - core levels

KW - nickel

KW - XPS SPECTRA

KW - 2P

U2 - 10.1103/PhysRevB.78.233105

DO - 10.1103/PhysRevB.78.233105

M3 - Article

SN - 1098-0121

VL - 78

SP - 3

EP - 3

JO - Physical Review B (Condensed Matter and Materials Physics)

JF - Physical Review B (Condensed Matter and Materials Physics)

IS - 23

ER -

High-kinetic-energy photoemission spectroscopy of Ni at 1s: 6-eV satellite at 4 eV

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