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SMP: Supermassive Black Holes Faber-Jackson vs. Tully-Fisher

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Presentation on theme: "SMP: Supermassive Black Holes Faber-Jackson vs. Tully-Fisher"— Presentation transcript:

1 SMP: Supermassive Black Holes Faber-Jackson vs. Tully-Fisher
ASTC22. Lectures L20 SMP: Supermassive Black Holes Faber-Jackson vs. Tully-Fisher SMP on SMBH Are these two empirical laws similar? The same? Isothermal spheres Isothermal distribution functions Isothermal singular sphere Isothermal non-singular sphere Conclusions for the magnitude of dynamical friction in dark halos: the reason for efficient mergers Rotation and flattening of elliptical galaxies: only a weak connection

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3 Even the fantastic resolution of
the VLBI radio interferometry cannot resolve the central engine. The dot in the lower left corner is of order 6 Schwarzschild radii, i.e. several times the size of the black hole event horizon, from within which light or information cannot escape.

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6 Empirical correlation exists between the supermassive black hole mass
and the luminosity (and thus mass) of the bulge of the host galaxy, M87 is shown in a red circle

7 SMP on SMBHs

8 Tully-Fisher relationship, a correlation between the luminosity
and rotation for disk galaxies Log Vc -2.5 log L

9 Faber-Jackson relationship:
Luminosity ~ sigma^4 applies to ellipticals Tully-Fisher relationship Luminosity ~ (Vc)^3.85 applies to disk galaxies but the two are almost identical: both the disks and the ellipticals are immersed in the same type of dark halos which determines the maximum Vc via potential well depth.

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12 (sorry, that’s my teenage daughter)

13 Good for modeling flat-Vc galaxies in dark halos

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16 ...so this is one major reason why
mergers of galactic systems are so rapid (a few to a few dozen periods)

17 One more empirical correlation: between rotation and flattening of ellipticals,
which can be understood based on stellar dynamics Fastest rotation according to theory But remember: theory gives the upper envelope only. Most ellipticals are NOT supported or flattened by rotation. They simply are not relaxed; flattening comes from initial conditions, including geometry of encounter.

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