Photoionization using the xchem approach: Total and partial cross sections of Ne and resonance parameters above the 
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Marante, Carlos; Klinker, Markus; Kjellsson, Tor; Lindroth, Eva; González‐Vázquez, Jesús; Argenti, Luca; Martı́n, Fernando

doi:10.1103/physreva.96.022507

Cited by 36 publications

(31 citation statements)

References 89 publications

(113 reference statements)

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“…The propagation of the single-electron orbitals is de-termined by the Qand P-space equations, Eqs. (7) and (8), respectively. By setting η i j (t) either to be 0 or h i j (t), the only contribution in Q-space which may mix the magnetic quantum number m in the orbital |φ i (t) is n (ρ −1 (t)) n i jkl Q(t)ρ jl nk (t)W k l (t)|φ j (t) .…”

Section: Appendix A: Conservation Of Orbital Mmentioning

confidence: 99%

“…To this end we need a theory where we can control the level of approximation, and we need to investigate a system which is possible to describe at such different levels. Thus, we describe the photoionization of the Ne ground-state [5][6][7] mediated by an ultrashort XUV pulse using the time-dependent restricted-active-space self-consistentfield (TD-RASSCF) approach [8][9][10][11]. This method permits the introduction of restrictions on the number of excitations in the active orbital space and is a generalization of the multiconfigurational time-dependent Hartree-Fock method [12].…”

Section: Introductionmentioning

confidence: 99%

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Attosecond photoionization dynamics in neon

Omiste

Madsen

2018

Phys. Rev. A

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We study the role of electron-electron correlation in the ground-state of Ne, as well as in photoionization dynamics induced by an attosecond XUV pulse. For a selection of central photon energies around 100 eV, we find that while the mean-field time-dependent Hartree-Fock method provides qualitatively correct results for the total ionization yield, the photoionization cross section, the photoelectron momentum distribution as well as for the time-delay in photoionization, electron-electron correlation is important for a quantitative description of these quantities.

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Section: Appendix A: Conservation Of Orbital Mmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Attosecond photoionization dynamics in neon

Omiste

Madsen

2018

Phys. Rev. A

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“…To describe this physical scenario, we have solved the timedependent Schrödinger equation (TDSE) in the velocity gauge by expanding the time dependent wave function in a basis of Ne eigenstates that includes 1 S e , 1 P o , 1 D e , and 1 F o symmetries, and consists of both bound and continuum states. All Ne eigenstates have been evaluated by using XCHEM [28,32]. Briefly, continuum states have been evaluated by including four parent ions corresponding to the configurations 1s 2 2s 1 2p 6 and 1s 2 2s 2 2p 5 , from which neutral states were constructed by augmenting with an additional electron described by both active space orbitals and a hybrid basis of monocentric Gaussian and B-spline functions (GABS basis [33]).…”

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confidence: 99%

Disentangling Spectral Phases of Interfering Autoionizing States from Attosecond Interferometric Measurements

et al. 2019

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We have determined spectral phases of Ne autoionizing states from XUV-MIR attosecond interferometric measurements and ab initio full-electron time-dependent theoretical calculations in an energy interval where several of these states are coherently populated. The retrieved phases exhibit a complex behavior as a function of photon energy, which is the consequence of the interference between paths involving various resonances. In spite of this complexity, we show that phases for individual resonances can still be obtained from experiment by using an extension of the Fano model of atomic resonances. As simultaneous excitation of several resonances is a common scenario in many-electron systems, the present work paves the way to reconstruct electron wave packets coherently generated by attosecond pulses in systems larger than helium.

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“…Here we summarize how QCPs, CCE and GABS combine to achieve an accurate description of photoionization processes in molecular systems. For more information on the theoretical details of this method, as well as on its application to the photoionization of He, H 2 and Ne, which confirmed the viability of the XCHEM approach and motivated this work, we refer the reader to the past publications [14,15].…”

Section: Theorymentioning

confidence: 76%

“…It relies on a hybrid description of the wave function in terms of Gaussian functions and B-splines, allowing to overcome the problems associated with either type of function. The applicability of the XCHEM method in atomic and small diatomic benchmark systems has been well established [14,15]. The next step is to apply the method to a poly-electronic molecular system.…”

Section: Introductionmentioning

confidence: 99%

Partial cross sections and interfering resonances in photoionization of molecular nitrogen

et al. 2018

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We present an in-depth theoretical study of N2 photoionization in the region between the second ( 2 Πu) and third ( 2 Σ + u ) ionization thresholds. In this region, the electronic continuum includes the Hopfield series of autoionizing states, corresponding to excitations to nsσ d , ndσ d and ndπg molecular orbitals. Calculations have been performed by using the XCHEM code, which makes use of a Gaussian/B-spline hybrid basis in the framework of a close-coupling approach. We provide total and partial photoionization cross sections for all open channels, energy positions and widths for the five lowest resonances of each series and, when resonances are well isolated from each other, Fano and Starace parameters. We also discuss how the coupling between the two series of overlapping resonances, nsσ d and ndσ d , affects their energies and autoionization widths. These results show the potential of the XCHEM method to describe resonant photoionization in molecules.

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Photoionization using the xchem approach: Total and partial cross sections of Ne and resonance parameters above the 2s22p5 threshold

Cited by 36 publications

References 89 publications

Attosecond photoionization dynamics in neon

Attosecond photoionization dynamics in neon

Disentangling Spectral Phases of Interfering Autoionizing States from Attosecond Interferometric Measurements

Partial cross sections and interfering resonances in photoionization of molecular nitrogen

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