Photoionization of Ar and Ar-like ions near the 3s-threshold

Lagutin, B. M.; Demekhin, Ph. V.; Petrov, I. D.; Sukhorukov, V. L.; Lauer, S.; Liebel, H; Vollweiler, F.; Schmoranzer, H.; Wilhelmi, O.; Mentzel, G.; Schartner, K.‐H.

doi:10.1088/0953-4075/32/8/303

Cited by 24 publications

(39 citation statements)

References 23 publications

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“…However, their appearance is in contrast to the Ar 3s → np spectrum, which shows a very sharp and regular Rydberg series 11 up to high n. The potassium resonances are broader with a less clear Rydberg series structure, disappearing at lower n. This is true not only for neutral potassium atoms but also for potassium ions as observed previously. [18][19][20][21] Since K + is isoelectronic to Ar, it can be inferred that the presence of a valence 4s electron does not play a decisive role in this difference. However, the most striking feature of the K + yield spectrum is a paired windows structure, with the deepest and lowest feature at 36.7 eV and a smaller one right next to it at 37.4 eV, clearly too close to be the next member of the Rydberg series.…”

Section: Experiments and Resultsmentioning

confidence: 99%

“…In particular, the subvalence s-shell photoexcitation in rare gas atoms [5][6][7][8][9][10][11][12][13][14][15] and closely related species [18][19][20][21] have been noted for the window type resonances, appearing as dips in the continuum background of the photo-absorption spectrum. Window resonances are extreme cases of the Beutler-Fano profile with profile index q close to zero.…”

Section: Introductionmentioning

confidence: 99%

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New Window Resonances in the Potassium 3sPhotoabsorption Spectrum

et al. 2002

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The photoion spectrum of atomic potassium was measured over the 3s → np excitation region with the photoion time-of-flight method and monochromatized synchrotron radiation. An unusual spectrum with paired windows structure was found instead of a simple regular Rydberg series. Such subsidiary windows have not been observed in the 3s → np resonances of Ar, which has a closed outer shell. Based on Dirac-Fock calculations, the dual window structure at 36.7 eV and at 37.4 eV was assigned to the 3s −1 3p 6 4s4p resonance. The line shape can be fitted by Fano's formula and the Fano parameters were obtained.

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Section: Experiments and Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

New Window Resonances in the Potassium 3sPhotoabsorption Spectrum

et al. 2002

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“…np excitations of Ar isoelectronic sequence, a dramatic change of the resonance shape along with the change of atomic number has been reported. [12][13][14][15] In a previous paper, we reported the window resonances of heavier alkaline atoms K, 16) Rb, and Cs. 17) The window resonance of these species were found to be distinctively broader compared with their neighboring rare gas atoms.…”

Section: Introductionmentioning

confidence: 97%

Variation of 3sPhotoionization Resonance Structures in a Serial Atomic Number Species Ar, K, and Ca

et al. 2003

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Subvalence 3s-shell photoionization resonances of Ca were measured with monochromatized synchrotron radiation and photoion time-of-flight spectroscopy method. Charge resolved photoion yield spectra were obtained. Broad peak structures were found in the Ca þ spectrum and shallow window structures were found in the Ca 2þ spectrum. We porformed MCDF calculations to assign the resonance structures. The 3s-shell photoionization of Ar and K were also measured for comparison. A systematic increase was observed in Fano-Beutler parameter and in the resonance width along with the increase of atomic number from Z ¼ 18(Ar) to 20(Ca). We discuss also the spectral structures that could be of the 3p double-shake-up satellites, which are observed in the 3s photoionization region.

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“…Amusia et al (1970) have extended the RPA ap- Amusia et al (1974) with experimental data (Samson and Cairns, 1968;Lynch et al, 1973;Samson and Gardner, 1974). Insert shows the partial terms of the transition amplitude computed in CIPF approach by Lagutin et al (1999). proach of Altick and Glassgold (1964) by using the HF AOs computed with exchange which is called the RPAE approach.…”

Section: Earlier Calculations Of the Picss Of Rare-gas Atomsmentioning

confidence: 99%

Many-electron dynamics of atomic processes studied by photon-induced fluorescence spectroscopy

et al. 2019

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The progress and the chronology in understanding the influence of electron correlations on the electronic structure of atoms and the dynamics of atomic processes is reviewed focusing on benchmark rare-gas atoms. The contributions and the chronological development of Photon-Induced Fluorescence Spectroscopy (PIFS), measuring dispersed-fluorescence emission cross sections upon excitation by single photons provided by monochromatized synchrotron radiation is described. Selected experimental results obtained by complementary techniques are also discussed for comparison. The basic suites of computer programs used for the investigation of the many-electron effects in atoms and the obtained results are analyzed. Special attention is paid to the Configuration Interaction Pauli-Fock approximation with Core Polarization (CIPFCP) method used to interpret the PIFS data.

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Photoionization of Ar and Ar-like ions near the 3s-threshold

Cited by 24 publications

References 23 publications

New Window Resonances in the Potassium 3sPhotoabsorption Spectrum

New Window Resonances in the Potassium 3sPhotoabsorption Spectrum

Variation of 3sPhotoionization Resonance Structures in a Serial Atomic Number Species Ar, K, and Ca

Many-electron dynamics of atomic processes studied by photon-induced fluorescence spectroscopy

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