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How Do Supermassive Black Holes Get Starved? Q. D. Wang, Z. Y. Li, S.-K. Tang University of Massachusetts B. Wakker University of Wisconsin.

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Presentation on theme: "How Do Supermassive Black Holes Get Starved? Q. D. Wang, Z. Y. Li, S.-K. Tang University of Massachusetts B. Wakker University of Wisconsin."— Presentation transcript:

1 How Do Supermassive Black Holes Get Starved? Q. D. Wang, Z. Y. Li, S.-K. Tang University of Massachusetts B. Wakker University of Wisconsin

2 M31 Bulge: a Case Study Li & Wang 2007; Li & Wang, Wakker 2009 The SMBH of M bh ~ 2 x 10 8 Msun; the observed upper limit Lx ~ 1 x 10 36 erg/s. Gas is being supplied from both the disk and bulge: e.g., evolved stars release ~ 0.1 Msun/yr in the M31 bulge. If accreted by the SMBH, the expected Lx ~ 6 x 10 44 erg/s. So this gas is not accreted and is also not accumulating in the bulge (only ~ 10 6 Msun is observed). IRAC 24 micron, K-band, 0.5-2 keV

3 The Gas is heated and is escaping! Characteristics of hot gas in the bulge: Bipolar morphology z 0 ~ 600 pc T~ 3 x 10 6 K L 0.5-2 keV ~ 3  10 38 erg/s Enhanced X-ray emission from a circumnuclear spiral. IRAC 24 micron, K-band, 0.5-2 keV Li & Wang 2007; Li & Wang, Wakker 2009

4 Hydro-simulation of SNRs, bulge wind, nuclear disk, and SMBH accretion Full box size =4 kpc Adaptive mesh refinement down to 0.5 pc (FLASH code) A cool gas inflow is assumed to continuously feed the nuclear disk around the SMBH of 3 x 10 8 Msun. The Ia SN (4x10 -4 /yr), and stellar wind injections follow the stellar light. The injections drive a bulge wind and also reduces the accretion to the SMBH. The disk is being evaporated  mass loading to the hot gas. 800 pcTang et al. 2009 Density cut

5 FUSE Detection of the OVI absorption line toward the M31 nucleus Absorption in the integrated stellar FUV spectrum (mostly due to HB stars) Effective foreground N OVI = 4 x 10 14 cm -2 The absorption line centroid at V ~ -280 km/s, compared to the M31 bulge’s systemic velocity -300 km/s  gas falling toward the center! A likely scenario is that the OVI traces the stellar mass loss being heated to hot gas. =1032 =1037 -- H 2

6 S0 galaxy: NGC 5800 Li et al. 2009

7 Conclusions Large amount of gas is injected into galactic bulges, but is not accreted by SMBHs or accumulating. Type Ia SNe can effectively heat the gas and drive bulge-wide outflows. Such outflows can greatly influence galaxy evolution as well as starve the SMBHs.

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