Survey
* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project
Download Forman - Chandra X
Document related concepts
Metastable inner-shell molecular state wikipedia , lookup
Gravitational lens wikipedia , lookup
Weak gravitational lensing wikipedia , lookup
X-ray astronomy wikipedia , lookup
History of X-ray astronomy wikipedia , lookup
X-ray astronomy detector wikipedia , lookup
Accretion disk wikipedia , lookup
Astrophysical X-ray source wikipedia , lookup
Circular dichroism wikipedia , lookup
Transcript
X-ray Bright, Optically Normal Galaxies - XBONGS Forman, Anderson, Hickox, Jones, Murray, Vikhlinin, Kenter and the Bootes Team Bootes Survey 9.3 sq. degrees with Chandra 4632 X-ray sources 1600 optical spectra NOAO Deep Wide Field Survey AGES Optical Spectroscopic Survey 20,000 galaxy spectra Key to success is contiguous area and efficient spectroscopy with Hectospec XBONGS - debated nature since Einstein Obs. (Elvis et al. 1981) Dilution of optical AGN signature by galaxy light Absorption Radiatively inefficient accretion flow (little optical/UV) The XBootes Survey • 126 ACIS 5 ksec pointings • Joint GTO (Murray) and GO (Jones) program • 14h 32m +34 06’ • 4642 sources detected (>=2 cts) – 625 spurious • 3293 sources detected (>=4 cts) – 22 spurious • 42 extended sources (>=10 cts) • fmin= 4(8)x10-15 erg cm-2 s-1 (0.5-7 keV) • 98% sources 4 cts matched to NDWFS candidates (R26) Murray et al. ApJ S 163, 2005 Kenter et al. ApJ S 163, 2005 Brand et al. ApJ, 2006 2 Spectroscopy in Bootes • MMT/Hectospec fiber spectrograph – 300 fibers – 6 A resolution, 4000-8000A • Spectroscopy – – – – Complete X-ray >4 cts and I<21.5 and galaxies I<19.5 1,531 X-ray selected and ~19,000 galaxies 1175 Broad Line Galaxies 50 Narrow Line Galaxies – 258 XBONGS • Huge sample • 17% of total • 0<z<1 3 Heterogeneous Class of Objects • • • • • From optical SED’s and morphology Red Ellipticals 60 Blue Ellipticals 84 Interacting 21 Spirals 9 “AGN” 12 (Fioc &Rocca-Volmerange 1997; Francis et al. 1991) 4 Redshift Distribution XBONGS Broad line AGN Narrow line AGN XBONGS and NL AGN same distribution 5 XBONG Magnitude Distribution XBONG BL (z<1) NL XBONG counterparts similar to NL/BL AGN possibly somewhat fainter than NL AGN Argues against significant dilution of lines by underlying host galaxy for all of sample 6 Luminosity Distributions •200 XBONGs with Lx>1042 erg/s •50% with Lx>1043 erg/s •XBONG’s and NL AGN •Similar Lx •Similar Fx/FR •Argues against dilution for all of sample XBONG BL (z<1) NL 7 Merged X-ray Spectra Type Red Ellipticals Blue Ellipticals “AGN” Interacting (90% error) and no absorption 1.12-1.32 1.55-1.73 1.83-2.25 1.28-1.56 (confirmed by hardness ratios) Red ellipticals - for an assumed =1.9 power law nH ~ 0.7-1.1 x 10 22 cm-2 (90% confidence) • Some “types” absorbed, some not absorbed 8 IRAC Color-Color Diagrams (following Stern et al.) BL AGN Z<0.15 XBONGS BL AGN NL AGN 0.45<Z<0.60 0.60<Z<0.75 0.15<Z<0.30 Red Blue 0.30<Z<0.45 0.75<Z<1.00 z<0.3 Dilution - about 30%; consistent with Georgantopoulos et al. dilution criterion z>0.3 XBONGS concentrated under AGN wedge 9 Radiatively Inefficient Accretion Flows (RIAF) •At low accretion rates (Yuan & Narayan) - Optically thick disk is truncated at Rtrans - Interior to Rtrans flow is RIAF (radiatively inefficient; optically thin) - Observed in high state galactic black holes -X-rays from inverse Compton in RIAF -Little optical or UV since no disk at small radii - model requires L/Ledd < 0.03 •Test RIAF model with spheroidal sample of XBONGS -Use optical luminosity as proxy for MBH (108-109 Msun) - MBH yields Ledd -Derive AGN LBOL from SED (Elvis et al.) - For 46 XBONGS, LBOL /Ledd < 0.01 VIABLE MODEL - needs detailed SED’s 10 Conclusions • Large XBONG sample – 258 with redshifts to 1 – Variety of optical morphologies • Origin of XBONG signature – – – – Some dilution at low z (small fx/fR) Some absorption - esp. red ellipticals with nH~1022 cm-2 Many sources show little (<1022 cm-2) absorption RIAF (radiatively inefficient accretion flow) • Spheroidal sample has low Eddington ratio (Lbol/Ledd<0.01) – Probably some BL Lac’s XBONG’s are a heterogeneous class 11 • Deeper & Wider Future Work – Chandra and XMM-Newton – Larger samples, better S/N • X-ray spectra – Better models applied to ensemble of spectra • Optical spectra for fainter sources – Probe to higher z • Detailed analysis of optical spectra – Derive equivalent widths and line strength limits – Model NL galaxies, compare to XBONGS • Derive SED’s for different classes to test e.g., RIAF models • Study local environment – 20,000 galaxy redshifts – Measure local density, compare to other AGN classes Remarkable class Promises new insights into accretion process 12 13 MMT Bootes survey Optical spectroscopy: AGES survey w/ MMT/Hectospec The first sample contains ~1000 broad line AGNs, 80 narrow-line AGNs, and 27,000 “normal” galaxies. 14
