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Atomic Data Needs for X-ray Analysis and AtomDB v2.0 Randall Smith Smithsonian Astrophysical Observatory.

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Presentation on theme: "Atomic Data Needs for X-ray Analysis and AtomDB v2.0 Randall Smith Smithsonian Astrophysical Observatory."— Presentation transcript:

1 Atomic Data Needs for X-ray Analysis and AtomDB v2.0 Randall Smith Smithsonian Astrophysical Observatory

2 Collaborators and Thanks AtomDB Collaborators: –Adam Foster, Nancy Brickhouse, John Raymond, Li Ji, Tim Kallman, Mike Witthoeft Thanks to: –ADAS team, CHIANTI team, ITAMP, Kate Kirby, Verne Jacobs, Ulyana Safronova, Guo- Xin Chen, Brendan McLaughlin, Brad Wargelin, and many others…

3 A Few Words about X-ray Needs Major needs are H-like, He-like, and Fe (and to a lesser extent Ni) L-shell line data. Sutton’s Law: “First consider the obvious.” http://en.wikipedia.org/wiki/Sutton’s_law

4 A Few Words about X-ray Needs Major needs are H-like, He-like, and Fe (and to a lesser extent Ni) L-shell line data. Sutton’s Law: “First consider the obvious.” (Willie Sutton is the bank robber who supposedly answered the question “Why do you rob banks?” with “Because that’s where the money is.”)

5 A Few Words about X-ray Needs Major needs are H-like, He-like, and Fe (and to a lesser extent Ni) L-shell line data. TW Hya, Chandra HETG Brickhouse et al. 2010

6 Current Problems: He-like Measured R ratios for Si XIII vs. the stellar X ‐ ray surface flux for all the analyzed stars (Testa et al. 2004). “ In the case of Si XIII, we find some evidence suggesting that the low- density limit of the ratio 1s2s 3 S→g/1s2p 3 P→g predicted by both APED and Porquet et al. (2001) are too low by 20%–40% or so based on our observed values. ”

7 Current Problems: He-like Comparison between the temperatures derived from the G ratio of He ‐ like triplet lines and the temperatures derived from the ratio of the Lyα line of the H ‐ like ion and the resonance line of the He ‐ like ion, for Mg. The dashed lines mark the locus of equal values. (based on Testa et al 2004)

8 Current Problems: He-like Data updated for He-like Ne IX using an R-Matrix calculation for the levels up to n=5, and then extending that to n=10 using a distorted wave calculation. Smith et al. 2009

9 Current Problems: H-like Going to higher n-shell is needed – and still an outstanding problem for all but H-like, He-like ions. Bandpass for Mg XI

10 Current Problems: Ionization Balance Changing the ionization balance can dramatically change the emission

11 Current Problems: Ionization Balance 30% errors on the ionization & recombination rates leads to ~30% errors in the ion population. However, at the limits of an ion’s population, these errors are increased up to 60%.

12 Current Problems: 50-150Å There is dramatic variation in the predicted flux of many of the Fe L- shell lines if they are normalized to one of the n=2->2 lines at ~100Å. Desai et al (2005)

13 Current Problems: Fe XVII Fe XVII 3C/3D from the point of view of observational data and various calculations

14 Current Problems: Fe XVII Gillaspy et al. 2010 Fe XVII 3C/3D from the point of view of laboratory data and various calculations

15 Coming Next: Future Problems INTERMISSION

16 Low Abundance Elements Badenes+(2008) considered model SNIa explosions with different neutron excesses and various classes of explosions For the progenitor of Tycho's SN, the data requires a near-solar or supersolar metallicity (Tamagawa+08) Suzaku 100ks Tycho observation shows Mn and Cr fluorescence lines from partially- ionized material. Relevent atomic parameters had to be estimated. Badenes et al 2008

17 Charge Exchange New measurements of astrophysically-relevant CX.

18 Charge Exchange Leutenegger et al 2010 1. Never get involved in a land war in Asia 2. Never go against a Sicilian when death is on the line 3. As President Reagan said, “Trust, but verify.” ???? ? norma l

19 Wavelengths Kotochigova et al 2010 Fit using ‘raw’ HULLAC wavelengths Fit using lab (Brown et al. 1998) wavelengths Fit using newly calculated wavelengths By combining laboratory measurements and theoretical structure calculations, can get highly accurate (few mÅ) wavelengths. Detectors with R>1000 require this kind of accuracy!

20 Wavelengths Lee et al 09 Absorption edges and related features still need a lot of work…

21 Fluorescent Line Data Hoelzer et al 1997 Bandler et al. 2010 The fluorescent lines from radioactive sources are not simple Lorentzians, but complex combinations of many lines. Line widths measured by current calorimeters are dominated by the natural line widths – which are not known for many useful elements!

22 Conclusions Send lawyers, guns, and money

23 Conclusions Send lawyers, guns, and money We need a balanced program of focused –Laboratory Measurements –Theoretical Calculations –Data Curation of Both Astro-H will usher in a new world of high- resolution spectra, especially in the 2-10 keV band. We must be ready for it!

24 BACKUP

25 Charge Exchange Leutenegger et al 2010

26 Photoionized Plasmas PL  =1.53 + kT BB ~0.1keV 6 param  100 features Two phase absorber w/ single outflow + turbulent velocity. Fe M shell UTA vital Continuous range of ionization parameters not favored. Krongold et al. 2003; also Netzer et al. 2003 and Behar et al. 2003 NGC 3783 – X-ray bright Seyfert galaxy; 900 ksec HETG, 280 ksec RGS observations This talk has focused on thermal plasmas; photoionized plasmas are even more complex as more ions come into play, and both collisional and photon cross sections are relevant.

27 Current Problems: 50-150Å Chandra has a wide bandpass, but the long-wavelength end suffers from poorly understood excitation rates and many unidentified lines, often from L-shell ions of Si, S, and other elements.

28 A Few Words on X-ray Missions Why is the atomic data we need almost always in the 1-50Å (0.25-10 keV) range? –Top end set by elemental abundances; Ni the last abundant element: all lines have > 1Å. –Low end set by absorption “Minimal” absorption is ~10 20 cm -2. At 50Å, this absorption implies  ~ 0.5 Resolution required (for thermal plasmas) set by thermal broadening:

29 Current Problems: Fe L-shell Desai et al (2005)

30 http://www.atomdb.org

31 A3112: A cluster with excess soft X-ray emission? The excess soft X-rays could be thermal or non-thermal; CCD and proportional counter data could not distinguish

32 RGS spectra shows no significant Fe XVII or Fe XVIII lines

33 Results …constraining any thermal soft X-ray excess to be 30-100x less than claimed

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