by Finazzi, M, Ghiringhelli, G, Tjernberg, O, Duo, L and Tagliaferri, A, Ohresser, P and Brookes, NB
Abstract:
The intensity of the O 1s core photoemission peak has been measured for CuO and NiO as the photon energy is scanned across the L-3 absorption edge of the metal ion. In CuO, the O 1s peak shows a typical antiresonant behavior, with a sizable decrease of its cross section at photon energies below the Cu L-3 threshold. No detectable effect is observed for NiO. The CuO data are well reproduced by a multiatom resonant photoemission model based on resonant light scattering.
Reference:
Multiatomic resonant photoemission spectroscopy on CuO and NiO: Observation of antiresonant behavior (Finazzi, M, Ghiringhelli, G, Tjernberg, O, Duo, L and Tagliaferri, A, Ohresser, P and Brookes, NB), In PHYSICAL REVIEW B, AMER PHYSICAL SOC, volume 62, 2000.
Bibtex Entry:
@article{ ISI:000166307800001,
Author = {Finazzi, M and Ghiringhelli, G and Tjernberg, O and Duo, L and
Tagliaferri, A and Ohresser, P and Brookes, NB},
Title = {{Multiatomic resonant photoemission spectroscopy on CuO and NiO:
Observation of antiresonant behavior}},
Journal = {{PHYSICAL REVIEW B}},
Year = {{2000}},
Volume = {{62}},
Number = {{24}},
Pages = {{R16215-R16218}},
Month = {{DEC 15}},
Abstract = {{The intensity of the O 1s core photoemission peak has been measured for
CuO and NiO as the photon energy is scanned across the L-3 absorption
edge of the metal ion. In CuO, the O 1s peak shows a typical
antiresonant behavior, with a sizable decrease of its cross section at
photon energies below the Cu L-3 threshold. No detectable effect is
observed for NiO. The CuO data are well reproduced by a multiatom
resonant photoemission model based on resonant light scattering.}},
Publisher = {{AMER PHYSICAL SOC}},
Address = {{ONE PHYSICS ELLIPSE, COLLEGE PK, MD 20740-3844 USA}},
Type = {{Article}},
Language = {{English}},
Affiliation = {{Finazzi, M (Corresponding Author), INFM, TASC, Elettra Synchrotron Light Source, SS 14,Km 163-5, I-34012 Trieste, Italy.
INFM, TASC, Elettra Synchrotron Light Source, I-34012 Trieste, Italy.
European Synchrotron Radiat Facil, F-38043 Grenoble, France.
Politecn Milan, INFM, Dipartimento Fis, I-20133 Milan, Italy.
KTH, S-10044 Stockholm, Sweden.}},
DOI = {{10.1103/PhysRevB.62.R16215}},
ISSN = {{2469-9950}},
EISSN = {{2469-9969}},
Keywords-Plus = {{ELECTRONIC-STRUCTURE; INTENSITIES}},
Research-Areas = {{Materials Science; Physics}},
Web-of-Science-Categories = {{Materials Science, Multidisciplinary; Physics, Applied; Physics,
Condensed Matter}},
ResearcherID-Numbers = {{Brookes, Nicholas B/C-6718-2019
Ohresser, Philippe/N-5311-2019
Finazzi, Marco/M-7401-2015
Ghiringhelli, Giacomo/D-1159-2014
Duo, Lamberto/N-9311-2014
Tagliaferri, Alberto/L-2903-2015
}},
ORCID-Numbers = {{Brookes, Nicholas B/0000-0002-1342-9530
Ohresser, Philippe/0000-0001-8611-1753
Finazzi, Marco/0000-0002-9197-3654
Ghiringhelli, Giacomo/0000-0003-0867-7748
Tagliaferri, Alberto/0000-0001-8001-1786
Tjernberg, Oscar/0000-0001-8669-6886}},
Number-of-Cited-References = {{17}},
Times-Cited = {{8}},
Usage-Count-Last-180-days = {{1}},
Usage-Count-Since-2013 = {{9}},
Journal-ISO = {{Phys. Rev. B}},
Doc-Delivery-Number = {{390QL}},
Unique-ID = {{ISI:000166307800001}},
DA = {{2020-12-22}},
}
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