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Modelling the high mass accretion rate spectra of GX 339-4 Mari Kolehmainen & Chris Done Durham University Maria Diaz Trigo, ESO High Energy View of Accreting.

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Presentation on theme: "Modelling the high mass accretion rate spectra of GX 339-4 Mari Kolehmainen & Chris Done Durham University Maria Diaz Trigo, ESO High Energy View of Accreting."— Presentation transcript:

1 Modelling the high mass accretion rate spectra of GX 339-4 Mari Kolehmainen & Chris Done Durham University Maria Diaz Trigo, ESO High Energy View of Accreting Objects: X-ray Binaries Agios Nikolaos, Crete 2010

2 High mass accretion rate spectra classical high/soft state ▫disc dominated ▫measure BH spin from disc continuum very high/intermediate state ▫strong hard X-ray tail ▫measure BH spin from Fe-line profile 2

3 Beyond the RXTE energy band 3 GX 339-4 3 keV

4 GX 339-4 5.8 < M< 15 M  D > 6 kpc 45°< i < 70° Loads of RXTE data (> 3 keV) Few XMM-Newton EPIC-pn Burst mode observations (> 0.7 keV) ▫not piled up! 4

5 EPIC-pn Burst mode Time resolution 7μs Timing mode 30μs (800 counts/s) Pileup limit 60,000 counts/s Duty cycle 3 % photon collecting time/readout time Extracted using SAS10 includes CTI correction 5

6 Burst mode observations of GX 339-4 joint EPIC-pn/RXTE observations 2 disc dominated states 2 soft intermediate states (SIMS) 6

7 Burst mode observations of GX 339-4 M = 10 M  D = 8 kpc i = 60° 0156760101 (SIMS) 0410581201 (discy) 0410581301 (SIMS) 0410581701 (discy) 7 Kolehmainen & Done (2010)

8 3 keV DISKBB simplest multi-colour disc blackbody KERRBB stress-free inner boundary condition, relativistic smearing and the colour- temperature correction BHSPEC calculates radiative transfer through each disc annuli includes all the relativistic corrections assumes R in =R ISCO Continuum fitting below 3 keV: Disc dominated state 8

9 Disc model ▫use this as seed photons for Comptonisation (convolved with Simpl (Steiner et al. 2009)) to make X-ray tail reflection of Comptonised continuum using ionised reflection models of Ross & Fabian relativistic smearing (kdblur) 9

10 Continuum fitting below 3 keV: Disc dominated state 10 diskbb+reflection ▫very steep continuum to make disc broader  Γ > 3 ▫reflection fraction ~4 ▫misses HEXTE

11 Continuum fitting below 3 keV: Disc dominated state 11 diskbb+reflection ▫very steep continuum to make disc broader  Γ > 3 ▫reflection fraction ~4 ▫misses HEXTE

12 Continuum fitting below 3 keV: Disc dominated state 12 diskbb+CompTT+ reflection ▫Γ~2.4 ▫reflection fraction~0.4 ▫extrapolates to HEXTE

13 Continuum fitting below 3 keV: Disc dominated state 13 diskbb+CompTT+ reflection ▫Γ~2.4 ▫reflection fraction~0.4 ▫extrapolates to HEXTE

14 Continuum fitting below 3 keV: Disc dominated state 14 bhspec+reflection ▫Γ~2.3 ▫reflection fraction ~0.9 ▫extrapolates to HEXTE ▫does not allow SIMS fitting

15 Continuum fitting below 3 keV: Disc dominated state 15 bhspec+reflection ▫Γ~2.3 ▫reflection fraction ~0.9 ▫extrapolates to HEXTE ▫does not allow SIMS fitting

16 Continuum fitting past the disc dominated state: The model tbabs*((diskbb*simpl)+CompTT+kdblur*refxion*(simpl*diskbb)) a major advantage comes from being able to fit with different mass accretion rates 16 disc dominated

17 Continuum fitting past the disc dominated state: The model tbabs*((diskbb*simpl)+CompTT+kdblur*refxion*(simpl*diskbb)) a major advantage comes from being able to fit with different mass accretion rates 17 SIMS

18 The soft intermediate state (SIMS) 20-25% of disc up-scattered to produce tail photon index 2.44 no high energy roll-over frac. of reflected emission ~0.5 R in ~ 70R g highly ionised  So what about the Fe-line? 18 Obsid 0410581301

19 Previously derived an upper limit of 0.9 for the spin in GX 339-4 from continuum fitting of disc dominated RXTE spectra GX 339-4 widely studied in terms of Fe-line burst mode spectrum gave a * = 0.935 (Miller et al. 2004; Reis et al. 2008) The Fe-line and the BH spin 19

20 The Fe-line and the BH spin diskbb+po+reflection disc, power law, ionised smeared reflection continuum modelled by ignoring 4−7 keV  Residuals show a broad iron line 20 Obsid 0156760101

21 The Fe-line and the BH spin diskbb+compTT+reflection convolved disc, compTT, ionised smeared reflection  Narrow line does not constrain BH spin 21 Obsid 0156760101

22 Conclusions The XMM-Newton Burst mode can actually be used to make science ▫can look at the disc below 3 keV even with the brightest objects Real disc spectra are much broader than diskbb Changing the continuum model changes the shape of the iron line (and the BH spin) 22

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