Presentation is loading. Please wait.

Presentation is loading. Please wait.

Iron K Spectra from L-Shell Ions in Photoionized Plasmas Work in Progress Duane Liedahl Physics and Advanced Technologies Lawrence Livermore National Laboratory.

Published by Modified over 9 years ago

Similar presentations

Presentation on theme: "Iron K Spectra from L-Shell Ions in Photoionized Plasmas Work in Progress Duane Liedahl Physics and Advanced Technologies Lawrence Livermore National Laboratory."— Presentation transcript:

1 Iron K Spectra from L-Shell Ions in Photoionized Plasmas Work in Progress Duane Liedahl Physics and Advanced Technologies Lawrence Livermore National Laboratory Motivations:Si K  fluorescence from L-shell ions in HMXBs spectroscopic diagnostic potential high spectral resolution at Fe K provided by Astro-E 2 Focus:resonant Auger destruction Applications:stellar winds in HMXBs accretion disks in AGN and X-ray binaries

2 ASCA data from Vela X-1 motivated a wind model based on spherically symmetric mass loss See Sako et al., ApJ, 1999 contours of log ionization parameter  =L/nr 2 Model accounts for emission from H-like and He-like ions of several elements Does not account for fluorescence lines that were observed Si charge state distribution

3 From wind model we can predict high-ionization component of high-resolution Chandra spectrum

4 Chandra spectrum Vela X-1data shows entire Si L-shell K  spectrum Several charge states are separated, although each ionic component is a blend Mg-F O N C B Be

5 Same features are observed in other X-ray binaries

6 Broad range of silicon charge states suggests that fluorescence from iron L-shell ions should be observed

7 Fabian, et al., 2000, PASP Iron K lines are used to probe black hole accretion disks Nandra, et al.,1999, ApJ

8 Models used to fit relativistic Fe K line involve 6.4 keV “near-neutral line” or H-like and He-like lines – no K  from Fe L Where are the K lines from Fe L-shell ions? It was suggested that resonant Auger destruction is responsible. (Ross, Fabian, & Brandt 1996, MNRAS; see also Band et al. 1990, ApJ) How does silicon observed in HMXBs respond to this process?

9 Resonant Auger destruction is simply line scattering with a high destruction probability per scatter Since destruction probability is high, a good approximation is to zero out all K lines from Fe L-shell ions – right? mechanism operates for F-like to Li-like ions (for K  need vacancy in n=2 shell)

10 We use an escape probability method to model resonant Auger destruction geometric setup P esc vs. line center optical depth

11 line optical depth depends on fractional population of lower level Calculation of line optical depths requires knowledge of level population distribution appropriate to local plasma conditions

12 Many iron K  transitions terminate on excited levels Example: Be-like Fe XXIII Calculations performed with the HULLAC atomic physics package

13 This line terminates on ground Fe XXIII illustrates the selective action of resonant Auger destruction four lines to levels 6, 7, 8 models folded through  E fwhm = 6 eV gaussian resolution kernel

14 Define an effective fluorescent yield to account both for atomic physics and resonant Auger destruction

15 A better assessment of resonant Auger destruction accounts for level population distributions We have demonstrated the effect of Fe RAD for the “nebular case,” that is, only ground levels are significantly populated Should be adequate for most HMXB environments, not so for disks

16 Consistent treatment requires population kinetics model for pre-ionization charge state (cf., Jacobs et al. 1989, Phys Rev A)

17 Photoionization out of excited levels provides access to different autoionizing levels, resulting in a different K spectrum line fluorescence yield high yield lines low yield lines

18 We include a bright EUV radiation field to drive the level populations schematic of ion layer in an accretion disk atmosphere level populations for 9 lowest Be-like levels for kT = 80 eV Planckian

19 low yield lines high yield lines Level population distribution can make a big difference in both fluorescence line spectra and ion fluorescence yield Comparison of Fe XXIV spectra in “zero-D” showing effect of different level population distributions

20 Resonant Auger destruction modifies the outgoing spectrum but does not entirely quench emission

21 Disk environment leads to enhancement of effective fluorescent yield for this ion – even with resonant Auger destruction

22 Li-like iron is not an exception – similar results are found for three other charge states

23 Calculation by Mario Jimenez-Garate; figure provided by Chris Mauche Vertical disk structure calculations show that column densities of Fe L ions are each a few times 10 18 cm -2 (see also Nayakshin & Kallman 2001, ApJ)

24 K  emission from Fe L boosts theoretical “Fe line” equivalent widths for expected accretion disk parameters ionic equivalent widths Li-like through F-like Fe summed equivalent width suggested range of column density found in accretion disk atmosphere

25 AGN models predicting relativistic O VIII emission should include Fe L K  calculations for consistency

26 Summary and Comments Focus of this work is on assessing spectroscopic effects of resonant Auger destruction Conclude that it is not valid to “turn off” K  lines from L-shell ions when modeling disks That L-shell ions are not required in fits to AGN spectra remains puzzling but will be better tested with Astro-E 2 Fe K lines from L-shell ions should be observed in some HMXBs Connection between HMXBs and AGN in this context? HMXB spectra can be used to exercise spectral models by providing constraints based on observations – feed back into disk models Resonant Auger destruction can be turned into a new class of plasma diagnostic

Download ppt "Iron K Spectra from L-Shell Ions in Photoionized Plasmas Work in Progress Duane Liedahl Physics and Advanced Technologies Lawrence Livermore National Laboratory."

Similar presentations

Program Degrad.1.0 Auger cascade model for electron thermalisation in gas mixtures produced by photons or particles in electric and magnetic fields S.F.Biagi.

Program Degrad.1.0 Auger cascade model for electron thermalisation in gas mixtures produced by photons or particles in electric and magnetic fields S.F.Biagi.
X-ray Astronomy with High Spectral Resolution: Astro-E2 / ISAS Y. Tanaka.

X-ray Astronomy with High Spectral Resolution: Astro-E2 / ISAS Y. Tanaka.
X-Ray Astronomy Lab X-rays Why look for X-rays? –High temperatures –Atomic lines –Non-thermal processes X-ray detectors X-ray telescopes The Lab.

X-Ray Astronomy Lab X-rays Why look for X-rays? –High temperatures –Atomic lines –Non-thermal processes X-ray detectors X-ray telescopes The Lab.
Radio and X-ray emission in radio-quiet quasars Katrien C. Steenbrugge, Katherine M. Blundell and Zdenka Kuncic Instituto de Astronomía, UCN Department.

Radio and X-ray emission in radio-quiet quasars Katrien C. Steenbrugge, Katherine M. Blundell and Zdenka Kuncic Instituto de Astronomía, UCN Department.
A reflection origin for the soft and hard X-ray excess of Ark 120 Ferrara, 2010 May 24-27 in collaboration with: Andy Fabian, Rubens Reis, Dom Walton (Institute.

A reflection origin for the soft and hard X-ray excess of Ark 120 Ferrara, 2010 May in collaboration with: Andy Fabian, Rubens Reis, Dom Walton (Institute.
X-ray Absorbing Outflows Astro 597: High Energy Astrophysics September 27, 2004 Brendan Miller.

X-ray Absorbing Outflows Astro 597: High Energy Astrophysics September 27, 2004 Brendan Miller.
Creating an X-ray Nebula in the Laboratory: Spectral Diagnostics of Neon Photoionization Experiments on the Z-Machine D. S. Conners, D. H. Cohen (Swarthmore.

Creating an X-ray Nebula in the Laboratory: Spectral Diagnostics of Neon Photoionization Experiments on the Z-Machine D. S. Conners, D. H. Cohen (Swarthmore.
Spectral Study of CAL87 Ken Ebisawa (JAXA/ISAS) Dai Takei (Rikkyo University) Thomas Rauch (University of Tuebinen) 1Spectral Study of CAL87.

Spectral Study of CAL87 Ken Ebisawa (JAXA/ISAS) Dai Takei (Rikkyo University) Thomas Rauch (University of Tuebinen) 1Spectral Study of CAL87.
COSPAR Workshop, Udaipur 2003 Active Galactic Nuclei : I Keith Arnaud NASA Goddard University of Maryland.

COSPAR Workshop, Udaipur 2003 Active Galactic Nuclei : I Keith Arnaud NASA Goddard University of Maryland.
Irradiated accretion disk emission from an ultrasoft AGN? www.mssl.ucl.ac.uk OM The unusually hot ‘big blue bump’ When Beppo-SAX measured the 0.1 to 12keV.

Irradiated accretion disk emission from an ultrasoft AGN? OM The unusually hot ‘big blue bump’ When Beppo-SAX measured the 0.1 to 12keV.
Jelena Kova č evi ć Astronomical Observatory Belgrade.

Jelena Kova č evi ć Astronomical Observatory Belgrade.
Outflows, Accretion Disks & the IGM: High Resolution Chandra & XMM Spectroscopy of AGN Tahir Yaqoob (JHU/GSFC) Collaborators: B. McKernan (UMD), C. Reynolds.

Outflows, Accretion Disks & the IGM: High Resolution Chandra & XMM Spectroscopy of AGN Tahir Yaqoob (JHU/GSFC) Collaborators: B. McKernan (UMD), C. Reynolds.
Line Transfer and the Bowen Fluorescence Mechanism in Highly Ionized Optically Thick Media Masao Sako (Caltech) Chandra Fellow Symposium 2002.

Line Transfer and the Bowen Fluorescence Mechanism in Highly Ionized Optically Thick Media Masao Sako (Caltech) Chandra Fellow Symposium 2002.
X-ray Grating Spectroscopy Mike Crenshaw Georgia State University X-ray Grating Spectroscopy of AGN Broad-band view X-ray spectral components: –Soft X-ray.

X-ray Grating Spectroscopy Mike Crenshaw Georgia State University X-ray Grating Spectroscopy of AGN Broad-band view X-ray spectral components: –Soft X-ray.
Creating and Characterizing an X-ray Photoionized Nebula in the Laboratory David H. Cohen 1,2, Joseph J. MacFarlane 1, Duane Liedahl 3, James E. Bailey.

Creating and Characterizing an X-ray Photoionized Nebula in the Laboratory David H. Cohen 1,2, Joseph J. MacFarlane 1, Duane Liedahl 3, James E. Bailey.
High Accuracy Atomic Physics in Astronomy ITAMP 2006 K-Shell Absorption and Emission Calculations Tom Gorczyca Western Michigan University X-Ray Photoabsorption.

High Accuracy Atomic Physics in Astronomy ITAMP 2006 K-Shell Absorption and Emission Calculations Tom Gorczyca Western Michigan University X-Ray Photoabsorption.
Probing the X-ray Universe: Analysis of faint sources with XMM-Newton G. Hasinger, X. Barcons, J. Bergeron, H. Brunner, A. C. Fabian, A. Finoguenov, H.

Probing the X-ray Universe: Analysis of faint sources with XMM-Newton G. Hasinger, X. Barcons, J. Bergeron, H. Brunner, A. C. Fabian, A. Finoguenov, H.
Ionization, Resonance excitation, fluorescence, and lasers The ground state of an atom is the state where all electrons are in the lowest available energy.

Ionization, Resonance excitation, fluorescence, and lasers The ground state of an atom is the state where all electrons are in the lowest available energy.
Spectral simulations of a H-C-O-Si plasma David Cohen with V. Swisher, M. Brown Swarthmore College Mar. 12, 2006 For the Plasma Dynamics Laboratory, University.

Spectral simulations of a H-C-O-Si plasma David Cohen with V. Swisher, M. Brown Swarthmore College Mar. 12, 2006 For the Plasma Dynamics Laboratory, University.
The primordial 4 He abundance: the astrophysical perspective Valentina Luridiana Instituto de Astrofísica de Andalucía (CSIC) Granada.

The primordial 4 He abundance: the astrophysical perspective Valentina Luridiana Instituto de Astrofísica de Andalucía (CSIC) Granada.

Similar presentations

Ads by Google