A. Naves de Brito scite author profile

Core excitation of gaseous HCl to the dissociative s ‫ء‬ state leads to a deexcitation spectrum with two qualitatively different contributions -a broad molecular background and narrow atomic lines. The experiment demonstrates that the ratio of integrated intensities from these two contributions depends crucially on the excitation frequency; the molecular background is enhanced with increased detuning of the photon frequency. This is discussed in a time-dependent model, using the concept of an effective duration time for the resonant x-ray scattering process. [S0031-9007(97)

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Femtosecond dissociation of ozone studied by the Auger Doppler effect

Rosenqvist

Wiesner

Brito

et al. 2001

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International audienceA Doppler-type shift in the kinetic energy of atomic Auger electrons emitted after fast dissociation of O3 molecules is observed. The resonant Auger spectrum from the decay of repulsive core-excited states reflects both the early molecular ozone decay and that from excited dissociation fragments. The kinetic energy of the fragment is manifested as an energy shift of the atomic Auger lines when the measurement is made under certain conditions. We report measurements of the energy-split atomic fragment emission lines arising from dissociation on a time scale comparable to the core-hole lifetime. For the O 1s–* states the kinetic energy release amounts to several electron volts. We report measurements for excitation of both the terminal and central oxygen 1s electrons. A simple kinematic model for extracting a lower limit for the kinetic-energy release is presented and is compared with the result of a Born–Haber cycle, which may be seen as an estimate of the maximum energy releas

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The electronic structure of free water clusters probed by Auger electron spectroscopy

Öhrwall

Fink

Tchaplyguine

et al. 2005

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(H2O)(N) clusters generated in a supersonic expansion source with N approximately 1000 were core ionized by synchrotron radiation, giving rise to core-level photoelectron and Auger electron spectra (AES), free from charging effects. The AES is interpreted as being intermediate between the molecular and solid water spectra showing broadened bands as well as a significant shoulder at high kinetic energy. Qualitative considerations as well as ab initio calculations explain this shoulder to be due to delocalized final states in which the two valence holes are mostly located at different water molecules. The ab initio calculations show that valence hole configurations with both valence holes at the core-ionized water molecule are admixed to these final states and give rise to their intensity in the AES. Density-functional investigations of model systems for the doubly ionized final states--the water dimer and a 20-molecule water cluster--were performed to analyze the localization of the two valence holes in the electronic ground states. Whereas these holes are preferentially located at the same water molecule in the dimer, they are delocalized in the cluster showing a preference of the holes for surface molecules. The calculated double-ionization potential of the cluster (22.1 eV) is in reasonable agreement with the low-energy limit of the delocalized hole shoulder in the AES.

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X-ray photoelectron, Auger electron and ion fragment spectra of O₂and potential curves of O₂²⁺

Larsson¹,

Baltzer²,

Svensson³

et al. 1990

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

105

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The O22+ ion has been studied by means of electron-impact-induced and photon-induced Auger electron spectroscopy and oxygen ion fragment spectroscopy of O2. The oxygen ion kinetic energy spectrum was recorded by inverting the relevant potentials of an electron spectrometer for the detection of positive particles. The 4 Sigma - and 2 Sigma - O 1s initial core hole states have been studied using monochromatised X-ray photoelectron spectroscopy. Potential energy curves for a number of electronic states of the O22+ dication have been calculated with the complete active space SCF (CASSCF) and multireference contracted CI (MRCCI) methods with a one-particle basis set of medium size ((8s, 6p, 2d)). An analysis of the O2 Auger electron spectrum based on the computed potential curves of O22+ is presented. The autoionisation satellites are analysed and these lines correspond to molecular singly ionised final states. One line at 510.7 eV, however, is associated with an atomic-like transition. Two shake-up Auger satellites are identified by a comparison with a recent O 1s shake-up spectrum from O2.

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Ionic dissociation of glycine, alanine, valine and proline as induced by VUV (21.21 eV) photons

et al. 2004

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A. Naves de Brito

Femtosecond Dissociation of Core-Excited HCl Monitored by Frequency Detuning

Femtosecond dissociation of ozone studied by the Auger Doppler effect

The electronic structure of free water clusters probed by Auger electron spectroscopy

X-ray photoelectron, Auger electron and ion fragment spectra of O₂and potential curves of O₂²⁺

Ionic dissociation of glycine, alanine, valine and proline as induced by VUV (21.21 eV) photons

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A. Naves de Brito

Femtosecond Dissociation of Core-Excited HCl Monitored by Frequency Detuning

Femtosecond dissociation of ozone studied by the Auger Doppler effect

The electronic structure of free water clusters probed by Auger electron spectroscopy

X-ray photoelectron, Auger electron and ion fragment spectra of O2and potential curves of O22+

Ionic dissociation of glycine, alanine, valine and proline as induced by VUV (21.21 eV) photons

Contact Info

Product

Resources

About

X-ray photoelectron, Auger electron and ion fragment spectra of O₂and potential curves of O₂²⁺