39 research outputs found
Atomic data from the IRON project - LI. Electron impact excitation of FeIX
We calculate collision strengths and thermally averaged collision strengths for electron excitation between the one hundred and forty energetically lowest levels of Fe8+. The scattering target is more elaborate than in any earlier work and large increases are found in the excitation rates among the levels of the 3s(2)3p(5)3d electron configuration due to resonance series that have not been considered previously. The implications for solar and stellar spectroscopy have been discussed elsewhere (Storey & Zeippen 2001). We correct some errors that were made in generating the figures given in that paper and present corrected versions
The influence of electron collisions on non-LTE Li line formation in stellar atmospheres
The influence of the uncertainties in the rate coefficient data for
electron-impact excitation and ionization on non-LTE Li line formation in cool
stellar atmospheres is investigated. We examine the electron collision data
used in previous non-LTE calculations and compare them to recent calculations
that use convergent close-coupling (CCC) techniques and to our own calculations
using the R-matrix with pseudostates (RMPS) method. We find excellent agreement
between rate coefficients from the CCC and RMPS calculations, and reasonable
agreement between these data and the semi-empirical data used in non-LTE
calculations up to now. The results of non-LTE calculations using the old and
new data sets are compared and only small differences found: about 0.01 dex (~
2%) or less in the abundance corrections. We therefore conclude that the
influence on non-LTE calculations of uncertainties in the electron collision
data is negligible. Indeed, together with the collision data for the charge
exchange process Li(3s) + H Li^+ + H^- now available, and barring the
existence of an unknown important collisional process, the collisional data in
general is not a source of significant uncertainty in non-LTE Li line formation
calculations.Comment: 8 pages, accepted by Astronomy and Astrophysics; Replaced with minor
corrections following proof
Photodetachment study of He^- quartet resonances below the He(n=3) thresholds
The photodetachment cross section of He^- has been measured in the photon
energy range 2.9 eV to 3.3 eV in order to investigate doubly excited states.
Measurements were made channel specific by selectively detecting the residual
He atoms left in a particular excited state following detachment. Three
Feshbach resonances were found in the He(1s2p ^3P)+e^-(epsilon p) partial cross
section: a ^4S resonance below the He(1s3s ^3S) threshold and two ^4P
resonances below the He(1s3p ^3P) threshold. The measured energies of these
doubly excited states are 2.959260(6) eV, 3.072(7) eV and 3.26487(4) eV. The
corresponding widths are found to be 0.20(2) meV, 50(5) meV and 0.61(5) meV.
The measured energies agree well with recent theoretical predictions for the
1s3s4s ^4S, 1s3p^2 ^4P and 1s3p4p ^4P states, respectively, but the widths
deviate noticeably from calculations for 1s3p^2 ^4P and 1s3p4p ^4P states.Comment: 10 pages, 3 figures, LaTeX2e scrartcl, amsmath. Accepted by Journal
of Physics B; minor changes after referee repor
Ionization Structure and Spectra of Iron in Gaseous Nebulae}
The emission spectra and the ionization structure of the low ionization
stages of iron, Fe I--IV, in gaseous nebulae are studied. This work includes:
(i) new atomic data: photoionization cross sections, total e-ion recombination
rates, excitation collision strengths, and transition probabilities; (ii)
detailed study of excitation mechanisms for the [Fe II], [Fe III], and [Fe IV]
emission, and spectroscopic analysis of the observed IR, optical, and UV
spectra; (iii) study of the physical structure and kinematics of the nebulae
and their ionization fronts. Spectral analysis of the well observed Orion
nebula is carried out as a test case, using extensive collisional-radiative and
photoionization models. It is shown that the [Fe II] emission from the Orion
nebula is predominantly excited via electron collisions in high density
partially ionized zones; radiative fluorescence is relatively less effective.
Further evidence for high density zones is derived from the [O I] and [Ni II]
spectral lines, as well as from the kinematic measurements of ionic species in
the nebula. The ionization structure of iron in Orion is modeled using the
newly calculated atomic data, showing some significant differences from
previous models. The new model suggests a fully ionized H II region at
densities on the order of cm, and a dynamic partially ionized H
II/H I region at densities of \cm3. Photoionization models also
indicate that the optical [O I] and [Fe II] emission originates in high density
partially ionized regions within ionization fronts. The gas phase iron
abundance in Orion is estimated from observed spectra.Comment: AAS LaTex, 60 pages 18 figures. Astrophysical Journal. in pres
PHOTOIONISATION OF ATOMS AND IONS : AN EXTENDED BIBLIOGRAPHY FOR 1986-1990
Une liste de plus de 900 publications parues en 1986-90 sur les transitions lié-libre induites par impact photonique dans les systèmes atomiques est présentée. Ce travail étend la bibliographie 1970-87 de Butler et al (1988) sur la photoionisation des atomes et des ions dans deux directions. D'une part, elle élargit le domaine d'investigation systématique à l'ionisation simple et multiple, directe et résonnante, impliquant des couches externes ou internes, induite par un seul ou un grand nombre de photons, en présence ou non de champs statiques externes. D'autre part, elle affine l'indexation des références obtenues qui sont classées simultanément par espèce, type de processus et de travail.A list of over 900 references published during the period 1986-90 on bound-free transitions induced by photon-impact in atomic systems is presented. This work extends the 1970-87 bibliography of Butler et al (1988) on the photoionisation of atoms and ions in two directions. On one hand, it enlarges the domain of systematic investigation to simple and multiple ionisation, direct and resonant, implying outer and inner shells, induced by a single or a large number of photons, with or without the presence of external static fields. On the other hand, it refines the indexation of the selected references by species, type of process and of work
Transition probabilities for [Ni I] and [Ni II] lines
New radiative transition probabilities have
been calculated
for forbidden lines of astrophysical interest in Ni I and Ni II. The
accuracy of the
transition probability scales is established on the basis of two independent calculations
performed with the approximately relativistic Hartree-Fock and SUPERSTRUCTURE
codes. Both physical models take into account the most important
configuration interaction
(CI) and relativistic effects
Hyperspherical close-coupling calculation of integral cross sections for the reaction H+H2→H2+H
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