(e,2e) triple differential cross sections for the simultaneous ionization and excitation of helium

Dupré, C.; Lahmam‐Bennani, A.; Duguet, A.; Mota-Furtado, F.; O’Mahony, Patrick; Cappello, C. Dal

doi:10.1088/0953-4075/25/1/028

Cited by 75 publications

(85 citation statements)

References 39 publications

(12 reference statements)

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“…Various experimental techniques have been used including photon [1 -5], electron [6,7], and proton [8,9] impact. The relative contribution from the second-order and correlational processes was different in these studies.…”

Section: Introductionmentioning

confidence: 99%

“…The coincidence electron-impact ionization, or (e, 2e), experiments of Stefani, Avaldi, and Camilloni [6] and Dupre et al [7] can also be analyzed in the same terms of 'Electronic address: anatoli esm. ph.…”

Section: Introductionmentioning

confidence: 99%

“…au the relative contribution from the second-order and correlational processes, which is defined uniquely since the kinematics of all the particles involved in the reaction is fully determined. Such an analysis was attempted by Dupre et al [7], who tried to reproduce their own experimental results within a first-order model with the full account for both the ground-state and final-state correlations. They employed a highly correlated variational multiconfiguration wave function for the ground state while the multichannel R-matrix theory was used for the final state.…”

Section: Introductionmentioning

confidence: 99%

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Theoretical triple differential cross section of the helium atom ionization with excitation to then=2 ion state

et al. 1994

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The {e,2e) triple di8'erential cross section and generalized oscillator strengths of the helium atom ionization with simultaneous excitation have been calculated for the kinematic arrangements of the recent measurements and calculations of Dupre et al. [J.Phys. B 25, 259 (1992)]. The first Born calculation has been performed with an initial correlated multiconfiguration Hartree-Fock helium atom ground state and a coupled-channel final state of the ion and ejected "slow" electron. We find generally good agreement with the experiment, which is a substantial improvement on the previous calculations.PACS number(s): 31.20.Tz, 34.80.Dp

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Theoretical triple differential cross section of the helium atom ionization with excitation to then=2 ion state

et al. 1994

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“…Even for the coplanar geometry, significant discrepancies between theory and experiment can occur under such conditions, if the part of the projectile-target interaction responsible for ionization is accounted for only to first order [12]. Such experiments were performed by Dupré et al [13] and later by Avaldi et al [14] and Rouvellou et al [15]. For their conditions of highly asymmetric energy sharing between the two outgoing electrons, hybrid methods based upon a perturbative treatment, up to second order, of the projectile-target interaction and an R matrix (closecoupling) approach for the ejected-electron-residual-ion interaction [16] were quite successful, especially when the latter part of the problem (e-He collisions) was systematically driven to convergence [17].…”

mentioning

confidence: 99%

Electron-Impact Ionization and Excitation of Helium to then=1–4Ionic States

2006

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We present high-precision (e,2e) measurements and calculations for the e-He four-body Coulomb breakup problem. Cross-section ratios for ionization and excitation of the first three excited states of He+ relative to the ground state have been measured for incident energies between 112 and 319 eV. Comparing the data with predictions from a state-of-the-art hybrid distorted-wave+convergent R matrix with pseudostates (close coupling) approach shows that treating the projectile-target interaction at least to second order is crucial to obtain reasonable agreement between theory and experiment. Nevertheless, our benchmark studies reveal significant theoretical problems for the symmetric energy-sharing cases, thus indicating the need for further improvement.

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“…The dynamical effects, that are typically observed in these measurements, as modification of the ratio between the intensities of the binary and recoil lobes or as angular shifts in the low energy electron distributions, are larger in the ionisation excitation process than in the pure ionisation. A similar study was performed by Dupre' et al at higher energy (46). In this latter experiment the absolute value of the cross section was also determined.…”

Section: Interaction Mechanismmentioning

confidence: 62%

The (e,2e) spectroscopy, achievements and perspectives

Stefani

Avaldi²,

Camilloni³

1993

J. Phys. IV France

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Electron-electron coincidence experiments have experienced over the past twenty years an increasingly rapid expansion and application to many different fields. Among them, the (e,2e) spectroscopy has been successfully used to investigate either the target electronic structure or the ionisation dynamics. The capability of this spectroscopy to investigate single particle properties in atoms, molecules and solids is discussed by the help of some recent results. Correlation effects in bound states and in the continuum have been the subject for several recent (e,2e) investigations. Single and double ionisation coincidence experiments are reviewed focusing the attention on correlation effects. The interference between direct and resonant ionisation channels has been also the objective of recent electron coincidence experiments. Perspective and developments of the (e,2e) spectroscopy are briefly discussed

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(e,2e) triple differential cross sections for the simultaneous ionization and excitation of helium

Cited by 75 publications

References 39 publications

Theoretical triple differential cross section of the helium atom ionization with excitation to then=2 ion state

Theoretical triple differential cross section of the helium atom ionization with excitation to then=2 ion state

Electron-Impact Ionization and Excitation of Helium to then=1–4Ionic States

The (e,2e) spectroscopy, achievements and perspectives

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