1999
DOI: 10.1103/physrevlett.83.1546
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Linear and Circular Dichroism in the Double Photoionization of Helium

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Cited by 51 publications
(52 citation statements)
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“…These electron angular distributions have recently been called into question by theoretical results [32,33] and by a cross-check on consistency with well established results for linear polarization [34]. In addition recent experimental data on circular dichroism in He double photoionization by Soejima et al [35] found good agreement with CCC calculations by Kheifets and Bray in contrast to the conclusions drawn in [1]. The present paper resolves this dispute.…”
Section: Introductioncontrasting
confidence: 55%
“…These electron angular distributions have recently been called into question by theoretical results [32,33] and by a cross-check on consistency with well established results for linear polarization [34]. In addition recent experimental data on circular dichroism in He double photoionization by Soejima et al [35] found good agreement with CCC calculations by Kheifets and Bray in contrast to the conclusions drawn in [1]. The present paper resolves this dispute.…”
Section: Introductioncontrasting
confidence: 55%
“…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: 61%
“…As has been shown recently [18] (for the case of the quadrupole-induced asymmetry of the TDCS with respect to the direction of a linearly polarized photon beam), retardation effects can modify the TDCS considerably even at relatively small excess energies. Though existing measurements of the CD effect [12][13][14][15][16] do not show any signatures of nondipole effects, this fact is expected because all of them have been performed in the orthogonal geometry (i.e., when the photon wave vector, k, is orthogonal to the detection plane spanned by the vectors p 1 and p 2 ), in which case the lowest-order retardation effects do not contribute to the TDCS [18].…”
mentioning
confidence: 99%
“…Berakdar and Klar (1992) first pointed out that for circular dichroism to occur it is sufficient that the direction of light propagation and the momentum vectors of the electrons span a tripod of defined handedness. This is the case if the two electrons and the light direction are non coplanar and the two electrons have unequal energy (see Berakdar et al (1993); Berakdar (1998);Berakdar (1999); Berakdar and Klar (2001) for a detailed discussion and experimental results (Viefhaus et al 1996;Kheifets and Bray 1998;Mergel et al 1998;Kheifets et al 1999a;Soejima et al 1999;Achler et al 2001;Collins et al 2002).…”
Section: Double Ionisation Of Atoms: a Brief Summarymentioning
confidence: 99%