Decay of "autoionizing" core-hole states in adsorbed CO molecules

W. Wurth; C. Schneider; R. Treichler; D. Menzel; E. Umbach

doi:10.1103/PhysRevB.37.8725

Decay of "autoionizing" core-hole states in adsorbed CO molecules

W. Wurth
, C. Schneider
, R. Treichler
, D. Menzel
, E. Umbach

Chair of Experimental Physics

Technical University of Munich
Siemens AG
Universität Stuttgart

Research output: Contribution to journal › Article › peer-review

49 Scopus citations

Abstract

The decay of resonantly excited (1s2) C and O 1s core-hole states, called autoionization in the gas phase, was studied for absorbed CO molecules by means of angle-resolved Auger spectroscopy for three different systems [CO/Cu(100), CO/Ni(111), CO+K/Ni(111)] which represent rather different bonding configurations. It is shown that the final states resulting from the 2-participant decay are, unlike the situation for the isolated molecule, not identical to the final states reached in valence photoemission. This is due to the coupling of the 2 level to the substrate valence band and to the dynamics of the screening process. For CO/Cu(100), whose decay spectra differ from those observed for other systems, a decay of two different initial states is proposed.

Original language	English
Pages (from-to)	8725-8729
Number of pages	5
Journal	Physical Review B
Volume	37
Issue number	15
DOIs	https://doi.org/10.1103/PhysRevB.37.8725
State	Published - 1988

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10.1103/PhysRevB.37.8725

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title = "Decay of {"}autoionizing{"} core-hole states in adsorbed CO molecules",

abstract = "The decay of resonantly excited (1s2) C and O 1s core-hole states, called autoionization in the gas phase, was studied for absorbed CO molecules by means of angle-resolved Auger spectroscopy for three different systems [CO/Cu(100), CO/Ni(111), CO+K/Ni(111)] which represent rather different bonding configurations. It is shown that the final states resulting from the 2-participant decay are, unlike the situation for the isolated molecule, not identical to the final states reached in valence photoemission. This is due to the coupling of the 2 level to the substrate valence band and to the dynamics of the screening process. For CO/Cu(100), whose decay spectra differ from those observed for other systems, a decay of two different initial states is proposed.",

author = "W. Wurth and C. Schneider and R. Treichler and D. Menzel and E. Umbach",

year = "1988",

doi = "10.1103/PhysRevB.37.8725",

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T1 - Decay of "autoionizing" core-hole states in adsorbed CO molecules

AU - Wurth, W.

AU - Schneider, C.

AU - Treichler, R.

AU - Menzel, D.

AU - Umbach, E.

PY - 1988

Y1 - 1988

N2 - The decay of resonantly excited (1s2) C and O 1s core-hole states, called autoionization in the gas phase, was studied for absorbed CO molecules by means of angle-resolved Auger spectroscopy for three different systems [CO/Cu(100), CO/Ni(111), CO+K/Ni(111)] which represent rather different bonding configurations. It is shown that the final states resulting from the 2-participant decay are, unlike the situation for the isolated molecule, not identical to the final states reached in valence photoemission. This is due to the coupling of the 2 level to the substrate valence band and to the dynamics of the screening process. For CO/Cu(100), whose decay spectra differ from those observed for other systems, a decay of two different initial states is proposed.

AB - The decay of resonantly excited (1s2) C and O 1s core-hole states, called autoionization in the gas phase, was studied for absorbed CO molecules by means of angle-resolved Auger spectroscopy for three different systems [CO/Cu(100), CO/Ni(111), CO+K/Ni(111)] which represent rather different bonding configurations. It is shown that the final states resulting from the 2-participant decay are, unlike the situation for the isolated molecule, not identical to the final states reached in valence photoemission. This is due to the coupling of the 2 level to the substrate valence band and to the dynamics of the screening process. For CO/Cu(100), whose decay spectra differ from those observed for other systems, a decay of two different initial states is proposed.

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DO - 10.1103/PhysRevB.37.8725

M3 - Article

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SN - 0163-1829

VL - 37

SP - 8725

EP - 8729

JO - Physical Review B

JF - Physical Review B

IS - 15

ER -

Decay of "autoionizing" core-hole states in adsorbed CO molecules

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