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![Page 1: Atomic data: state of the art and future perspectives Jelle Kaastra with Ton Raassen, Liyi Gu, Junjie Mao, Igone Urdampilleta, Missagh Mehdipour SRON &](https://reader035.fdocuments.us/reader035/viewer/2022062803/56649f515503460f94c73dfa/html5/thumbnails/1.jpg)
Atomic data: state of the art and future perspectives
Jelle Kaastrawith Ton Raassen, Liyi Gu, Junjie Mao, Igone
Urdampilleta, Missagh Mehdipour
SRON & Leiden University
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Introduction
• X-ray emitting plasmas everywhere: – Solar system to cosmic web filaments
• Broad range environments & physical conditions:– collisional ionised, photo-ionised, transiently ionised
• High resolution X-ray spectroscopy key to understand these sources
• Next year launch ASTRO-H with SXS calorimeter• Old models not always most up to date atomic physics• Need tool to model these different sources with same,
consistent set atomic parameters
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Spectroscopic codes @ SRON
• Short history:– 1972 Mewe– 1975 Mewe-Gronenschild– 1985 Mewe-Gronenschild-
Van den Oord– 1990 Meka– 1994 Mekal– 1992 SPEX
• 1992 Version 1• 2001 Version 2• 2015 Version 3 (expected release December)
• Evolution from plasma model to full astrophysical model including data analysis (fitting), plotting & diagnostic output
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Need for updates
• Example: Mewe code (still core present SPEX models) approximates radiative recombination contribution to lines by local power-law
• Okay for CIE but:• Large deviations for
recombining / ionising plasma
Tmax
log T
log
rate
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Requirements for updates
• Code must allow options for fast calculation yet accurate enough
• Minimise number of mathematical operations & data storage for the cross sections/rates
• follow original strategy of Mewe: simple, accurate & fast approximations, but more accurate & complete than before
• Restrict to Z ≤ 30 (astrophysically most relevant)
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Updates to atomic data
• For full model, need updates of many processes:– Collisional & photo-ionisation cross sections– Transition probabilities– Auto-ionisation rates– Recombination rates– Line energies– Etc.
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Comparison of codes(with Junjie Mao)
Wavelength (Å)
Wavelength (Å)
SPEX V 3.0βATOMDB V3.0.2
Log T (K) Fe
O
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Collisional ionisation(with Igone Urdampilleta)
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Motivation
• In the past, several compilations• Recent one: Dere 2007• Almost always give total ionisation rates• Subshells needed for inner-shell line emission• New data published since 2007• Revisit collisional ionisation rates
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Collisional ionisation for atoms and ions of H to Zn
Direct ionization cross section fitting procedure:
Relativistic correction (Quarles 1976 and Tinschert et al. 1989):
Excitation Autoionization fit (Mewe 1972):
where, Ee electron energy I ionisation potential A, B, D, E fit parameters C Bethe constant R relativistic correction
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Examples of fits to collisional ionisation cross sections
QI2 (
10-2
4 m
2 keV
2 )
1s
2s
Note Dimensionless scaling
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QI2 (
10-2
4 m
2 keV
2 ) Relativistic correction
Note dimensionless scaling
I ~ Z2 for 1s shell H-sequence
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-Cl-Ar-K-Ca-Sc-Ti-V
-Cr-Mn-Fe-Co-Ni-Cu-Zn
-Cl-Ar-K-Ca-Sc-Ti-V
-Cr-Mn-Fe-Co-Ni-Cu-Zn
-Cl-Ar-K-Ca-Sc-Ti-V
-Cr-Mn-Fe-Co-Ni-Cu-Zn
-Cl-Ar-K-Ca-Sc-Ti-V
-Cr-Mn-Fe-Co-Ni-Cu-Zn
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-Cl-Ar-K-Ca-Sc-Ti-V-Cr-Mn-Fe-Co-Ni-Cu-Zn
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Radiative recombination(with Junjie Mao)
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Radiative recombination
• Need individual rates to different excited shells for calculation of line spectrum
• Also need cooling rate associated to the recombination (kinetic energy captured electron averaged over the recombination rate)
• Start with hydrogen-like systems
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RR Cross Section
PI Cross SectionStorey&Hummer (1991)
EXACT
AUTO STRUCTUREBadnell (2006)
FAC Gu (2003)
cf
Analytic
Free e- distribution
Milne relation
RR rates
Parameterisation
R(T) = a0 T-b0-c0logT (1+a2T-b2) / (1 + a1 T-b1)
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Fitting accuracy
• Vast majority: accurate within few %
• Very limited number outliers
• Usually unimportant transitions
• Example: C I n=5 1D2 level, still ~15% accuracy
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Photoionised plasmas(with Missagh Mehdipour)
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Obscuration in NGC 5548
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Differences photoionisation models(NGC 5548 obscured case)
Ξ = Fion / nkTc
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Total radiative recombination rates
• Seaton approximation: simple analytic form for low to intermediate T
• Fails at higher T• Previously widely used (e.g. Arnaud &
Rothenflug 1985 balance)
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Effects of update for photoionised plasmas
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He-like triplets and absorption(with Missagh Mehdipour)
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He-like R-ratio in Active Galactic Nuclei(Seyfert 2 galaxies)
Theory: Porquet & Dubau (2000)
Landt et al. 2015, observations
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1s22s1s2s(1S)2p 2P 1s22s1s2s(3S)2p 2P
w
z
x,y
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Line broadening
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Line broadening
• Thermal Doppler broadening
• Turbulent broadening• Natural broadening?• For Fe-K, FWHM 0.2-1.0
eV (e.g. Brown et al.)• Corresponds to 10-50
km/s• Need Voigt profiles
Thermal broadening only
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Charge transfer modelingsee talk this afternoon by Liyi Gu
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Conclusions
• Astrophysical sources sometimes found in remarkable areas of parameter space
• New X-ray missions like ASTRO-H (launch 2016) demand more detail & accuracy (but also Chandra & XMM-Newton benefit)
• Work in progress: update atomic parameters in X-ray spectral models to account for this
• SPEX ( www.sron.nl/spex ) Version 3 will contain these updates (release late 2015)