1 / 19

IXO and WHIM

IXO and WHIM. Science of WHIM Status of WHIM search (X-ray and UV) Suzaku results on LSS and cluster outskirts Expectation with IXO XGS Summary. T. Ohashi (Tokyo Metropolitan University). Galaxies. Clusters. Reionization. 1st stars. Large –scale structure. Light elements. Big bang.

lysandra-jarvis
Télécharger la présentation

IXO and WHIM

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. IXO and WHIM • Science of WHIM • Status of WHIM search (X-ray and UV) • Suzaku results on LSS and cluster outskirts • Expectation with IXO XGS • Summary T. Ohashi (Tokyo Metropolitan University)

  2. Galaxies Clusters Reionization 1st stars Large –scale structure Light elements Big bang Recombination Present IGM temperature Reionization by UV and X 106 K 104 K Shock heating Cooling by expansion Metal synthesis 102 K 3m 0.38M 0.2G 0.8G 5G 13.7Gyr Age of the Universe Thermal history of the universe WHIM (warm-hot intergalactic medium) will tell us the evolution of the hot-phase material in the universe

  3. Baryon phase Wide area in the baryon phase space is unexplored Branchini et al. 09 Oxygen line probes the dark baryon efficiently EDGEconsortium Bregman 07

  4. Dark matter Galaxies (~104K) Cosmic structure WHIM (105-107 K) traces the cosmic large-scale structure = “Missing baryon” Typical matter density: d (=n/nB) = 10 - 100 Yoshikawa et al. 2001, ApJ, 558, 520 size = 30 h-1 Mpc 5 deg at z=0.1 IGM (105-107K) Cluster gas (107K)

  5. Sculptor Wall by Chandra and XMM Fang et al. 2010, ApJ 714, 1715 • Scupltor wall (z = 0.03  0.002) via absorption of blazar H2356-309 (z = 0.165) • XMM RGS (130 ks) + Chandra LETG (520 ks) combined • OVII (21.6 A) absorption line detected at z = 0.03 with 4.0s significance(EW = 26 mA) • If depth of L = 15 Mpc (filling the wall) and ZO = 0.1 solar assumed, overdensity becomes d 30 • Consistent with WHIM filling the filament Chandra

  6. FUSE and XMM detection of WHIM Nicastro et al. 2010, ApJ 715, 854 XMM RGS • PKS0558-504 (z = 0.1372) shows OVIII (XMM) and HI Lyb (FUSE) absorption lines at z = 0.117 • XMM RGS data with 900 ksec in total show 2.8s significance • FUSE data show Lyb (4s) but no OVI feature  T > 3.3  106 K • Metallicity 1% - 4% solar (absorption unlikely to be AGN outflow) and NH 1.5  1021 cm-2 • Estimated T infers overdensity  300 and L 5 Mpc OVIII (z = 0.116) FUSE HI Lyb (z = 0.118)

  7. COS detection of nearby WHIM Narayanan et al. 2010 ApJ, 721, 960 • Broad Lya (COS) and OVI (FUSE) at z = 0.0103 against Mrk 290 (z = 0.0296) • Line width: T = 1.4  105 K • OVI is likely to be photoionized (combination of non-equilibrium coll. ion. and photoionization necessary) • Large-scale filament (20) exists • Possible connection with NGC5987, at about 400 kpc away from the absorption system

  8. COS study of distant WHIM Narayanan et al. 2011 ApJ, 730, --- • NeVIII and OVI (both with COS) absorption at z = 0.495 against PKS 0405-123 (z = 0.57) • Line data: T 5  105 K, NH = 1019-20 cm-2, ZNe  0.25 solar • NeVIII probes collisionally ionized gas, while OVI is likely to be photoionized • Hot halo of a galaxy or WHIM • NeVIII useful in studying coll. ion. gas

  9. Suzaku search for WHIM Suzaku is searching for WHIM in cluster outskirts and in superclusters, with no positive detection of redshifted O lines yet Suzaku is giving fairly low upper limits (d < 300 assuming line-of-sight depth of 2 Mpc and ZO = 0.1 solar) Suzaku will continue searching for WHIM in all possible locations

  10. Cluster outskirts with Suzaku A2142 outskirt A1413 outskirt Rvir(2.7 Mpc) Rvir Akamatsu et al. 2011 in prep Hoshino et al. 2010 PASJ • Significant X-ray emission detected out to Rvir • Systematic errors due to fluctuation of CXB, Galactic background, non X-ray background, XIS filter contamination evaluated • Effect of stray light from bright center less than 7% of the observed flux

  11. Cluster outskirts with Suzaku Akamatsu et al. 2011 in prep "Uniform" temperature profile by Burns et al. 2010, ApJ 721, 1105 K = kT/n2/3 r1.1 A2142 • Entropy drop at > 0.5 rvir is seen in several clusters • Clumpiness explains only a few % drop • Non equilibrium (Ti > Te) more likely? Nagai and Lau 2011 ApJL

  12. Filament junction by Suzaku Search for (and detection of ) X-ray emission from large-scale junction of filaments Kawahara et al. 2011 ApJL 727, L38 DisPerSE : filament extractor Sousbie 2010, Sousbie, Pichon, & Kawahara 2010 RASS map with SDSS galaxies LOS

  13. Suzaku J1552+2739: a group of galaxies X-ray intensity contour Hardness ratio map 1.64 keV "hot spot"3.91 keV NXB subtracted & vignetting corrected image LX = 2.4  1043 erg/s • Likely to be a group undergoing major merger • Filament junction could host many undetected X-ray groups • These should explain some of the missing baryons

  14. IXO: grating spectrometer • Big jump from Chandra and XMM-Newton grating spectrometers by factor of > 10 in effective area and 3 - 7 times higher resolution • Sensitive to Equivalent Width  2 meV • R = 3000 can resolve v = 100 km/s, such as structures of galactic winds l/Dl

  15. IXO: absorption study • OVII, OVIII absorptions: WHIM presence beyond any doubt • Predicted dN/dz of OVII, OVIII clouds (normalized with OVI results): several absorption systems per AGN will be detected • There are > 100 useful AGNs for absorption study (FX > 5  10-11 cgs), and observation of 30 AGNs will reveal 100 WHIM clouds IXO: 600 ksec dN/dz 100 OVI 10 OVIII 1 OVII IXO 0.1 1 10 100 EW (mÅ) Bregman et al. IXO-WP

  16. WHIM emission study Galactic Grasp /ORIGIN • Grasp of XMS: equally large as those of dedicated missions • 5” angular resolution resolves 16 kpc at z = 0.2 (galactic outflow scale) WHIM Simulated spectrum

  17. WHIM search using resonance scatting • Churazov et al. 2001, MN 323, 93Churazov, 2010, Space Sci. Rev. 157, 193 • WHIM can be surrounding bright AGNs or groups • Part of continuum X-rays undergoes resonant scattering by WHIM gas • For d ~ 30, a few Mpc region around bright AGNs will shine in OVII and/or OVIII lines • Rough estimation shows that an AGN with LX = 1046 erg/s at z = 0.2 can produce about 100 OVII counts with IXO over ~ 5 arcmin region in 100 ksec observation • Weaker or comparable to the thermal line intensity, but this is an additional emission scaling with n

  18. Resonance scattering from WHIM Mpc scale halo O line • AGN (or gal. group) X-rays will be resonantly scattered by OVII and OVIII ions in surrounding WHIM • A few Mpc scale extended halo of O lines is expected • Radial profile is much flatter than thermal emission from group gas AGN/group WHIM S. brightness OVII from group r-3 r-1 WHIM halo r

  19. Summary • WHIM will give us unique information about thermal and chemical evolution of the universe • Absorption and emission studies with IXO will reveal all phases of warm-hot baryons within z 0.5 • Absorption study with IXO will probe low-density WHIM clouds (d < 100) • Emission measurement will also show us the spatial structure (filaments, outflows) of WHIM • Resonance scattering may show oxygen-line halos with ~ Mpc scale around bright objects

More Related