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Populations of Galactic X-ray (compact) sources visible to Spectrum-RG Revnivtsev M., Space Research Institute; Moscow, Russia.

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Presentation on theme: "Populations of Galactic X-ray (compact) sources visible to Spectrum-RG Revnivtsev M., Space Research Institute; Moscow, Russia."— Presentation transcript:

1 Populations of Galactic X-ray (compact) sources visible to Spectrum-RG Revnivtsev M., Space Research Institute; Moscow, Russia

2 Discrete X-ray emitters in the Galaxy 1.Binaries with relativistic objects – X-ray binaries. High mass and low mass companions 2.Single relativistic objects: cooling neutron stars, rotation powered pulsars.. 3.Binaries with accreting white dwarfs 4.Stars with active coronae, binary stars (the most numerous sources)

3 Expected spatial distribution of CVs, LMXBs… High interstellar absorption

4 Extragalactic sky Galactic ISM It is very hard to study Galactic sources

5 You should see through walls But you often find something interesting and useful

6 ROSAT 1-2 keV sens.limit 10 -12 erg/s/cm 2 Severe absorption in the G.Plane

7 INTEGRAL 17-60 keV sens. limit ~10 -11 erg/sec/cm 2 Harder X-rays are extremely valuable for Galactic surveys – ART-XC

8 Why population studies? 1. Search for sources to be studied individually 2. Properties of populations can tell us about their formation … about interactions in binary systems (MSW, GW, outflows?) 3 …. about average properties of compact objects (e.g. magnetic field, rotation rates at birth etc) 4 … about long term evolution of objects (e.g. accumulation/erosion of WD masses etc)

9 M31 Bulge of the Milky Way Only in our Galaxy we can study companions of X-ray binaries –> clues to physical mechanisms of their evolution

10 Voss, Gilfanov 2006 LMXB ? What is the origin of this break? L Edd for NS binary

11 Revnivtsev et al. 2011 MS WD LogLx~37 -- boundary between main sequence and giants companions?

12 Kuranov et al.. (preliminary)

13 LMXB age evolution? Lx L 2 dN/dL

14 Illarionov, Sunyaev 1975 Campana et al. 1998 G Propeller effect 3535

15 propeller? This is the reason of absence of faint LMXBs? Task for Spectrum-XG

16 Simulated LMXBs in the Galactic bulge (sensitivity 10-13 erg/s/cm^2, no absorption)

17 High mass X-ray binaries INTEGRAL view of the Gal.Plane

18 HMXB “hole” in the Galactic disk? Lutovinov et al. (2012, in preparation)

19 Galactic HMXBs Parameter space, reachable for Spectrum-XG In total 100-200 sources! L x <10 34-34.5 erg/sec

20 Study of HMXB population is beyond reach of telescopes like CHANDRA, XMM or NuSTAR due to their limited fields of view ~2-3/sq.deg!! figure of R.Krivonos

21 Cataclysmic variables

22 All sky survey – spatial distribution of cataclysmic variables Revnivtsev et al. 2008 Post bounce (older?) systems wider spreaded? Now only ~20 objects SRG expects >100000

23 Howell et al. 2001 Numerical modeling of cataclysmic variables Old and the most numerous

24 Littlefair et al. 2008 Low Mdot CVs accumulate mass in a long run? No WD erosion? We need bias-free surveys! Zero age WD mass

25 Counting CVs in the Galaxy is a complicated problem: biases One of the latest results:usage of wide uniform surveys of the sky - SDSS Szkody et al. 2003 Typical CV discovery: 1)Dwarf nova outbursts, 2)classical nova 3)UV color excess …………

26 Optical selection of CVs Selection: WD contribution in blue part of spectrum

27 Even this simple attempt to have less biased search revealed a completely different CV population Gansicke et al. 2009 Before SDSS sample

28 Colors and brightnesses of WD of different masses Bias toward lower masses WDs? T Bergeron et al. 1995

29 CVs in X-rays Depends on mass of WD and B-field X-ray surveys Spectrum-XG area

30 Van Paradijs & McClintock 1994 O’Brien et al. 2002 Mescheryakov et al. 2011 Problems of finding low-Lx LMXBS (even worse for qLMXB M K as faint as >4-5! Revnivtsev et al. 2011

31 IGR J17254 Extremely faint sources in crowded regions Hard targets -hunt for low Lx LMXBs SAX J1747

32 LMXBHMXB CV

33 eROSITA energy range ART-XC energy range Spectra of CVs and Active Binaries

34 For populations studies – future X-ray surveys Spectrum-XG (eROSITA+ART) Stars - millions CVs – 100 000 -500 000

35 Summary: Studies of populations provide us handles on: 1.formation of binaries 2.mechanisms of their long term evolution 3.On averaged properties of populations (compact objects magnetic fields, spatial distribution/kinematic age etc… Vital issue: algorithms of identification of Galactic sources among huge number of sources expected in Spectrum-XG surveys

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