New measurements of the cross sections of doubly excited resonances in calcium

Griesmann, Ulf; Shen, Ning; Connerade, J P; Sommer, K.; Hormes, J.

doi:10.1088/0953-4075/21/4/003

Cited by 43 publications

(38 citation statements)

References 17 publications

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“…4, where they are seem to be in excellent agreement with the available experimental results [11]. This gives confidence that, using exactly the same theoretical methodology, our calculations should also be reliable for U 0 > 0.…”

Section: B Evolution Of the Photoionization Cross Section With Incresupporting

confidence: 88%

“…The photoionization of the outer shell of neutral calcium has been studied using different methods in the past [6][7][8], and experimental data exist [9][10][11]. Three-state R-matrix calculations were found to be quite successful in describing the complex resonance structure endemic in outer-shell photoionization of free Ca [6]; thus, the R-matrix method was selected to perform the calculations.…”

Section: Introductionmentioning

confidence: 99%

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Photoionization of confined Ca in a spherical potential well

Hasoğlu

Zhou

Gorczyca³

et al. 2013

Phys. Rev. A

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The photoionization cross section of the Ca atom, confined by a spherical annular potential, has been calculated using a modification to the Belfast R-matrix code for a variety of depths of the confining potential. The results show that the external potential affects the cross section, which is dominated by doubly excited autoionizing states, quite significantly, causing much of the oscillator strength to move into the discrete region of the spectrum. In addition, increasing well depth causes a level crossing between the first two excited states of Ca + , thereby changing the ordering of resonances dramatically. The calculation for free Ca shows excellent agreement with experiment.

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Section: B Evolution Of the Photoionization Cross Section With Incresupporting

confidence: 88%

Section: Introductionmentioning

confidence: 99%

Photoionization of confined Ca in a spherical potential well

Hasoğlu

Zhou

Gorczyca³

et al. 2013

Phys. Rev. A

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“…For such large basis sets the solution of the linear eigensystem (5) at many energies can become time consuming, and for this reason a much more efficient "streamlined" solution method of Greene (12) and 0 0 (13) This partitioning breaks Eq. (5) into two coupled matrix equations, I ccZc+ PCOZ0 (14) r"Z'+ r-Z'=be-Z' (15) Using (14) to eliminate Z' from (15) leads to a matrix equation of much smaller dimension for Z', specifically [I oo I oc(l cc) -Il co]Zo gAooZo (16) …”

Section: Eigenchannel R-matrix Calculation In J J-couplingmentioning

confidence: 99%

“…Accounting for detailed spectroscopy of these heavy atoms, much of it only recently acquired [16],is a second major goal of this paper. Theoretical results are shown to adequately describe photoionization spectra of groundstate strontium and also of the ground state and an excited state of barium.…”

Section: Introductionmentioning

confidence: 99%

Spin-orbit effects in the heavy alkaline-earth atoms

1991

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Complex bound and autoionizing spectra of strontium, barium, and radium are treated at two different levels of approximation using multichannel-quantum-defect techniques (MQDT) and eigenchannel R-matrix calculations. In the first level, the R-matrix calculations are conducted entirely in LS coupling without explicitly including any spin-orbit terms in the Hamiltonian.A subsequent frame transformation to jj coupling is then carried out prior to the MQDT treatment. In the second level, the entire R-matrix calculation is conducted in jj coupling, including spin-orbit terms in the Hamiltonian explicitly within the R-matrix box. The two methods give nearly identical results even for atoms as heavy as barium, each showing good agreement with experiment, but significant differences begin to appear between the two levels of approximation for atomic radium.

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“…By employing intermediate resonances, such as the 4s4p 1 P o state, experimentalists control the Ca · ion isotopes that are trapped [22,23,18]. We have recently demonstrated that the use of model potentials gives photoionization cross sections [20] in very good agreement with experiment [24] and the best other theoretical calculations [25]. In figure 3, we build on this work by presenting photoionization cross sections for the m 0 level of the 4s4p 1 P o state, which is used as an intermediate state in the trap loading experiments.…”

Section: Extension To Other Two-electron Systemsmentioning

confidence: 92%

Two-photon double ionization of helium

Hart¹,

Liang²,

McKenna³

2003

AIP Conference Proceedings

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The combination of B-spline basis sets with R-matrix theory has provided a powerful tool for the description of double ionization processes. We demonstrate this first by investigating electron-impact ionization of Li 2· . By applying the Floquet Ansatz, the same techniques can be employed to describe multiphoton double ionization processes through the R-matrix Floquet approach. Results for two-photon double ionization of He confirm the lower values of time-dependent closecoupling calculations compared to perturbation theory. The approach can be extended to quasi-twoelectron systems through the use of model potentials. This is demonstrated by calculating photoionization cross sections near threshold for the m 0 level of the 4s4p 1 P o state of calcium.

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New measurements of the cross sections of doubly excited resonances in calcium

Cited by 43 publications

References 17 publications

Photoionization of confined Ca in a spherical potential well

Photoionization of confined Ca in a spherical potential well

Spin-orbit effects in the heavy alkaline-earth atoms

Two-photon double ionization of helium

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