K. Ueda scite author profile

Theoretical and experimental study of vibrationally resolved partial photoionization cross sections and angular asymmetry parameter β for the 1σg and 1σu shells of N2 molecule in the region of the σ* shape resonance is reported. The measurements were made at the synchrotron radiation facility SPring-8 in Japan. The calculations in the random phase approximation have been performed using the relaxed core Hartree–Fock wavefunctions with the fractional charge of the ion core equal to 0.7. With its help, the role of interchannel coupling between the closely spaced 1σg and 1σu shells was studied. The experiment demonstrates the existence of a correlational maximum in the 1σu shell photoionization cross section induced by the σ* shape resonance in the 1σg shell. This maximum reveals itself even more clearly in the angular asymmetry parameter β for the v′ = 0 and v′ = 1 vibrational states of the ion. The calculation in the random phase approximation gives a consistent interpretation of the experimental data.

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X-ray absorption and resonant Auger spectroscopy of O2 in the vicinity of the O 1s→σ* resonance: Experiment and theory

Feifel

Velkov

Carravetta

et al. 2008

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We report on an experimental and theoretical investigation of x-ray absorption and resonant Auger electron spectra of gas phase O(2) recorded in the vicinity of the O 1s-->sigma(*) excitation region. Our investigation shows that core excitation takes place in a region with multiple crossings of potential energy curves of the excited states. We find a complete breakdown of the diabatic picture for this part of the x-ray absorption spectrum, which allows us to assign an hitherto unexplained fine structure in this spectral region. The experimental Auger data reveal an extended vibrational progression, for the outermost singly ionized X (2)Pi(g) final state, which exhibits strong changes in spectral shape within a short range of photon energy detuning (0 eV>Omega>-0.7 eV). To explain the experimental resonant Auger electron spectra, we use a mixed adiabatic/diabatic picture selecting crossing points according to the strength of the electronic coupling. Reasonable agreement is found between experiment and theory even though the nonadiabatic couplings are neglected. The resonant Auger electron scattering, which is essentially due to decay from dissociative core-excited states, is accompanied by strong lifetime-vibrational and intermediate electronic state interferences as well as an interference with the direct photoionization channel. The overall agreement between the experimental Auger spectra and the calculated spectra supports the mixed diabatic/adiabatic picture.

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A new approach to the complete photoionization experiment, by means of a coincidence measurement between autoionized electrons and polarized fluorescent photons, in the region of the 3p-3d resonance in calcium

Beyer

West

Ross

et al. 1995

J. Phys. B: At. Mol. Opt. Phys.

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By using synchrotron radiation to excite calcium atoms in the 3p-3d resonance region, excited calcium ions are generated. In the first measurement of this kind, we have measured the polarization of the fluorescent photons which result from the decay of these ions, in coincidence with the corresponding angle-resolved photoejected electrons. By combining this with the angular distribution parameter for these same electrons, measured in a separate experiment, we are able to calculate for this specific case, within the assumption of LS coupling, the ratio of the dipole amplitudes for the outgoing waves and their phase difference.

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Anisotropic Ultrafast Dissociation Probed by the Doppler Effect in Resonant Photoemission fromCF4

et al. 2003

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The resonant Auger spectrum from the decay of F 1s-excited CF4 is measured. Several lines exhibit a nondispersive kinetic energy as the exciting photon energy is tuned through the resonance region. The F 1s(-1) atomiclike Auger line is split into two components due to the emission of Auger electrons by a fragment in motion, when electron emission is observed along the polarization vector of the light. This Doppler splitting is direct evidence that the core excitation leads to T(d)-->C(3v) symmetry lowering, by elongation of a specific C-F bond preferentially aligned along the polarization vector of the incident photon.

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Investigating two-photon double ionization ofD2by XUV-pump–XUV-probe experiments

et al. 2010

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K. Ueda

Vibrationally resolved photoionization of the 1σ_gand 1σ_ushells of N₂molecule

X-ray absorption and resonant Auger spectroscopy of O2 in the vicinity of the O 1s→σ* resonance: Experiment and theory

A new approach to the complete photoionization experiment, by means of a coincidence measurement between autoionized electrons and polarized fluorescent photons, in the region of the 3p-3d resonance in calcium

Anisotropic Ultrafast Dissociation Probed by the Doppler Effect in Resonant Photoemission fromCF4

Investigating two-photon double ionization ofD2by XUV-pump–XUV-probe experiments

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K. Ueda

Vibrationally resolved photoionization of the 1σgand 1σushells of N2molecule

X-ray absorption and resonant Auger spectroscopy of O2 in the vicinity of the O 1s→σ* resonance: Experiment and theory

A new approach to the complete photoionization experiment, by means of a coincidence measurement between autoionized electrons and polarized fluorescent photons, in the region of the 3p-3d resonance in calcium

Anisotropic Ultrafast Dissociation Probed by the Doppler Effect in Resonant Photoemission fromCF4

Investigating two-photon double ionization ofD2by XUV-pump–XUV-probe experiments

Contact Info

Product

Resources

About

Vibrationally resolved photoionization of the 1σ_gand 1σ_ushells of N₂molecule