Perturbative analysis of the triply differential cross section and circular dichroism in photo-double-ionization of He

Istomin, Andrei Y.; Manakov, N. L.; Starace, Anthony F.

doi:10.1103/physreva.69.032713

Cited by 14 publications

(17 citation statements)

References 67 publications

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“…Up to now, all theoretical treatments of CD have employed the EDA (Refs. [1,3,4,[6][7][8][9][10][11][12][13]) and their predictions are generally in agreement with experiments [12][13][14][15][16]. Measurement of CD provides a sensitive means for probing two-electron dynamics in PDI, since the photon-helicity-dependent CD term in the TDCS originates from an interference between real and imaginary parts of particular components of the (generally non-Hermitian) PDI amplitude [4,7].…”

supporting

confidence: 63%

“…This approach has been shown in Refs. [11,21] to provide reasonable predictions for the dipole TDCS (except for small mutual angles, ഛ 60°).…”

mentioning

confidence: 99%

“…As in Refs. [11,21], for excess energies of the order of tens of eV, final state electron correlations are taken into account perturbatively to lowest order, and the He ground state is represented by the variational (uncorrelated) wave function having the effective nuclear charge Z = 27/ 16. This approach has been shown in Refs.…”

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confidence: 99%

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Circular dichroism at equal energy sharing in photo-double-ionization of He

et al. 2004

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confidence: 63%

“…This approach has been shown in Refs. [11,21] to provide reasonable predictions for the dipole TDCS (except for small mutual angles, ഛ 60°).…”

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Circular dichroism at equal energy sharing in photo-double-ionization of He

et al. 2004

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“…III.A we analyze these cross sections for DPI of He quantitatively (including the lowest-order nondipole corrections to the EDA) by means of two methods: (i) the convergent close-coupling (CCC) theory [20], whose EDA predictions for the TDCS are in excellent agreement with existing experiments for He (see, e.g., Ref. [21]), and (ii) the LOPT, which provides EDA results for the TDCS of reasonable accuracy for low excess energies [22,23] and which has been used recently for analyses of nondipole effects in the TDCS for E exc ≤ 450 eV [6][7][8]). These results thus allow us: (i) to provide reliable CCC predictions for the dipole and nondipole asymmetry parameters (and thus for the magnitude of nondipole effects at particular excess energies), and (ii) to assess the accuracy of the LOPT predictions for these pa-rameters by comparing them to the CCC results.…”

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confidence: 90%

Parametrizations and dynamical analysis of angle-integrated cross sections for double photoionization including nondipole effects

et al. 2005

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Similarly to differential cross sections for one-electron photoionization, the doubly differential cross section for double photoionization ͑DPI͒ may be conveniently described by four parameters: the singly differential ͑with respect to energy sharing͒ cross section ͑ 0 ͒, the dipole asymmetry parameter ͑␤͒, and two nondipole asymmetry parameters ͑␥ and ␦͒. Here we derive two model-independent representations for these parameters for DPI from a 1 S 0 atomic bound state: ͑i͒ in terms of one-dimensional integrals of the polarization-invariant DPI amplitudes and ͑ii͒ in terms of the exact two-electron reduced matrix elements. For DPI of He at excess energies, E exc , of 100 eV, 450 eV, and 1 keV, we present numerical results for the asymmetry parameters within the framework of the convergent close-coupling theory and compare them with results of lowest-order ͑in the interelectron interaction͒ perturbation theory ͑LOPT͒. The results for E exc = 1 keV exhibit a nondipole asymmetry that is large enough to be easily measured experimentally. We find excellent agreement between our LOPT results and other theoretical predictions and experimental data for total cross sections and ratios of double to single ionization cross sections for K-shell DPI from several multielectron atoms.

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“…(1), we see that ΔW ξ is comprised of two very different parts. One of them, ΔW D1 , results from the interference of different terms in the first-order amplitude A 1 ; it is the analog of conventional circular dichroism in single photon double ionization of He [1,[35][36][37][38][39][40][41] and is linear in the pulse intensity I. The second part, ΔW D12 , is due to interference of the first-and second-order amplitudes, as occurs in single electron shortpulse ionization [25].…”

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confidence: 99%