Your search keyword '"Photoionisation"' showing total 7 results

1. Spectra of the triply charged ion CS[sub 2][sup 3+] and selectivity in molecular Auger effects

Author

Leif Karlsson, C. F. Rigby, P. Linusson, Francis Penent, John H. D. Eland, Lidija Andric, Pascal Lablanquie, Jérôme Palaudoux, Jan-Erik Rubensson, Raimund Feifel, Lage Hedin, Yasumasa Hikosaka, K. Ito, and Egil Andersson

Subjects

General Physics and Astronomy, Auger effect, Photoionization, photoionisation, Molecular physics, Ion, Auger, symbols.namesake, Ionization, orbital calculations, Physics::Atomic and Molecular Clusters, Fysik, Physics::Atomic Physics, Physical and Theoretical Chemistry, Auger electron spectroscopy, Valence (chemistry), Chemistry, carbon compounds, ab initio calculations, Physical Sciences, symbols, molecule-photon collisions, positive ions, Atomic physics, Ground state, time of flight spectra

Abstract

Spectra of triply charged carbon disulphide have been obtained by measuring, in coincidence, all three electrons ejected in its formation by photoionization. Measurements of the CS(2)(3+) ion in coincidence with the three electrons identify the energy range where stable trications are formed. A sharp peak in this energy range is identified as the (2)Pi ground state at 53.1+/-0.1 eV, which is the lowest electronic state according to ab initio molecular orbital calculations. Triple ionization by the double Auger effect is provisionally divided, on the basis of the pattern of energy sharing between the two Auger electrons into contributions from direct and cascade Auger processes. The spectra from the direct double Auger effect via S 2p, S 2s, and C 1s hole states contain several resolved features and show selectivity based on the initial charge localization and on the identity of the initial state. Triple ionization spectra from single Auger decay of S 2p-based core-valence states CS(2)(2+) show retention of the valence holes in this Auger process. Related ion-electron coincidence measurements give the triple ionization yields and the breakdown patterns in triple photoionization at selected photon energies from 90 eV to above the inner shell edges.

Published

2010

2. Core-valence double photoionization of the CS2 molecule

Author

Vincenzo Carravetta, Raimund Feifel, Egil Andersson, John H. D. Eland, Johannes Niskanen, Leif Karlsson, Hans Ågren, Jan-Erik Rubensson, Lage Hedin, and P. Linusson

Subjects

Ions, Photons, Valence (chemistry), Photon, Chemistry, carbon compounds, Spectrum Analysis, General Physics and Astronomy, Synchrotron radiation, Photoionization, photoionisation, Molecular physics, Spectral line, inner-shell ionisation, Ion, Carbon Disulfide, Physical Sciences, molecule-photon collisions, Molecule, SCF calculations, Fysik, Physical and Theoretical Chemistry, Spectrum analysis, Atomic physics

Abstract

Double photoionization spectra of the CS2 molecule have been recorded using the TOF-PEPECO technique in combination with synchrotron radiation at the photon energies h nu=220, 230, 240, 243, and 362.7 eV. The spectra were recorded in the S 2p and C 1s inner-shell ionization regions and reflect dicationic states formed out of one inner-shell vacancy and one vacancy in the valence region. MCSCF calculations were performed to model the energies of the dicationic states. The spectra associated with a S 2p vacancy are well structured and have been interpreted in some detail by comparison to conventional S 2p and valence photoelectron spectra. The lowest inner-shell-valence dicationic state is observed at the vertical double ionization energy 188.45 eV and is associated with a (2p(3/2))(-1)(2 pi(g))(-1) double vacancy. The spectrum connected to the C 1s vacancy shows a distinct line at 310.8 eV, accompanied by additional broad features at higher double ionization energies. This line is associated with a (C 1s)(-1)(2 pi(g))(-1) double vacancy.

Published

2010

3. Spectra of the triply charged ion CS[sub 2][sup 3+] and selectivity in molecular Auger effects

Author

Eland, J. H. D., Rigby, C. F., Andersson, Egil, Palaudoux, J., Andric, L., Penent, F., Linusson, P., Hedin, Lage, Karlsson, Leif, Rubensson, Jan-Erik, Hikosaka, Y, Ito, K, Lablanquie, P, Feifel, Raimund, Eland, J. H. D., Rigby, C. F., Andersson, Egil, Palaudoux, J., Andric, L., Penent, F., Linusson, P., Hedin, Lage, Karlsson, Leif, Rubensson, Jan-Erik, Hikosaka, Y, Ito, K, Lablanquie, P, and Feifel, Raimund

Abstract

Spectra of triply charged carbon disulphide have been obtained by measuring, in coincidence, all three electrons ejected in its formation by photoionization. Measurements of the CS23+ ion in coincidence with the three electrons identify the energy range where stable trications are formed. A sharp peak in this energy range is identified as the 2Π ground state at 53.1±0.1 eV, which is the lowest electronic state according to ab initio molecular orbital calculations. Triple ionization by the double Auger effect is provisionally divided, on the basis of the pattern of energy sharing between the two Auger electrons into contributions from direct and cascade Auger processes. The spectra from the direct double Auger effect via S 2p, S 2s, and C 1s hole states contain several resolved features and show selectivity based on the initial charge localization and on the identity of the initial state. Triple ionization spectra from single Auger decay of S 2p -based core-valence states CS22+ show retention of the valence holes in this Auger process. Related ion-electron coincidence measurements give the triple ionization yields and the breakdown patterns in triple photoionization at selected photon energies from 90 eV to above the inner shell edges.

Published

2010

4. Core-valence double photoionization of the CS2 molecule

Author

Andersson, Egil, Niskanen, Johannes, Hedin, Lage, Eland, John H. D., Linusson, Per, Karlsson, Leif, Rubensson, Jan-Erik, Carravetta, V., Ågren, Hans, Feifel, Raimund, Andersson, Egil, Niskanen, Johannes, Hedin, Lage, Eland, John H. D., Linusson, Per, Karlsson, Leif, Rubensson, Jan-Erik, Carravetta, V., Ågren, Hans, and Feifel, Raimund

Abstract

Double photoionization spectra of the CS2 molecule have been recorded using the TOF-PEPECO technique in combination with synchrotron radiation at the photon energies h nu=220, 230, 240, 243, and 362.7 eV. The spectra were recorded in the S 2p and C 1s inner-shell ionization regions and reflect dicationic states formed out of one inner-shell vacancy and one vacancy in the valence region. MCSCF calculations were performed to model the energies of the dicationic states. The spectra associated with a S 2p vacancy are well structured and have been interpreted in some detail by comparison to conventional S 2p and valence photoelectron spectra. The lowest inner-shell-valence dicationic state is observed at the vertical double ionization energy 188.45 eV and is associated with a (2p(3/2))(-1)(2 pi(g))(-1) double vacancy. The spectrum connected to the C 1s vacancy shows a distinct line at 310.8 eV, accompanied by additional broad features at higher double ionization energies. This line is associated with a (C 1s)(-1)(2 pi(g))(-1) double vacancy.

Published

2010

5. Ion-ion coincidence studies on multiple ionizations of N-2 and O-2 molecules irradiated by extreme ultraviolet free-electron laser pulses

Author

Yamada, A., Fukuzawa, H., Motomura, K., Liu, X. -J, Foucar, L., Kurka, M., Okunishi, M., Ueda, K., Saito, N., Iwayama, H., Nagaya, K., Sugishima, A., Murakami, H., Yao, M., Rudenko, A., Kuehnel, K. U., Ullrich, J., Feifel, Raimund, Czasch, A., Doerner, R., Nagasono, M., Higashiya, A., Yabashi, M., Ishikawa, T., Ohashi, H., Kimura, H., Togashi, T., Yamada, A., Fukuzawa, H., Motomura, K., Liu, X. -J, Foucar, L., Kurka, M., Okunishi, M., Ueda, K., Saito, N., Iwayama, H., Nagaya, K., Sugishima, A., Murakami, H., Yao, M., Rudenko, A., Kuehnel, K. U., Ullrich, J., Feifel, Raimund, Czasch, A., Doerner, R., Nagasono, M., Higashiya, A., Yabashi, M., Ishikawa, T., Ohashi, H., Kimura, H., and Togashi, T.

Abstract

We have investigated multiple ionization of N-2 and O-2 molecules by 52 nm extreme-ultraviolet light pulses at the free-electron laser facility SCSS in Japan. Coulomb break-up of parent ions with charge states up to 5+ is found by the ion-ion coincidence technique. The charge-state dependence of kinetic energy release distributions suggests that the electrons are emitted sequentially in competition with the elongation of the bond length.

Published

2010

6. Double photoionisation of thiophene and bromine substituted thiophenes

Author

Linusson, P., Storchi, L., Tarantelli, F., Heijkenskjöld, F., Andersson, Egil, Elshakre, M., Pfeifer, B., Colombet, M., Eland, J. H .D, Karlsson, L., Rubensson, J.-E., Feifel, R., Linusson, P., Storchi, L., Tarantelli, F., Heijkenskjöld, F., Andersson, Egil, Elshakre, M., Pfeifer, B., Colombet, M., Eland, J. H .D, Karlsson, L., Rubensson, J.-E., and Feifel, R.

Abstract

We report the double photoionization spectra of thiophene, 3-bromothiophene, and 3,4-dibromothiophene using a coincidence spectroscopy technique based on electron time-of-flight measurements. Spectra have been recorded between the onset and 40.814 eV using He IIα radiation. The He I photoelectron spectrum of 3,4-dibromothiophene has also been measured. All the spectra have been analyzed and interpreted in detail on the basis of theoretical simulations from accurate Green's function calculations.

Published

2008

7. Coincidence technique using synchrotron radiation for triple photoionization : Results on rare gas atoms

Author

Eland, John H. D., Linusson, Per, Hedin, Lage, Andersson, Egil, Rubensson, Jan-Erik, Feifel, Raimund, Eland, John H. D., Linusson, Per, Hedin, Lage, Andersson, Egil, Rubensson, Jan-Erik, and Feifel, Raimund

Abstract

Final-state trication spectra and electron distributions produced by soft x-ray single-photon triple ionization of rare gas atoms have been obtained by a multiple-coincidence technique using storage-ring synchrotron radiation. The technique uses electron time of flight with ion detection to overcome the problem of high repetition rates in single-bunch operation. A correction needed to the triple-ionization energy of Kr currently listed in standard tables is confirmed, and the method’s ability to examine the three-electron distributions, characterizing the ionization mechanisms and post-collision interactions, is illustrated.

Published

2008