Quasi-Stellar Objects (QSOs) and Schmidt’s Realization.

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Presentation transcript:

Quasi-Stellar Objects (QSOs) and Schmidt’s Realization

Active Galaxies oGalaxies that have unusually bright nuclei oCan have Jets Strong variability Strong radio emission Broad emission lines (like winds) oMost are located large distance of millions and even billions LYs away

Comparison of Spectra

Enter the AGN Zoo Seyfert Galaxies: Bright pointlike nuclei In spirals Two types – 1)Broad lines, X-rays 2)Narrow lines, IR Lower luminosity than quasars Radio Galaxies: In ellipticals Jets and large radio emitting lobes (ala synchrotron emission) Blazars: Bright, extremely variable Little or no emission lines X-rays

Spectra of the Zoo Animals

Radio Galaxy Centaurus A

Sizes of AGN

Quasars Quasi-stellar radio sources: Radio sources that appear pointlike in visible light Extremely luminous at – L o (note that L MW ~ L o ) Broad and narrow spectral lines Lots of X-rays, UV, and blue light Rapid variations indicate that source size is compact (around a few pcs in extent)

Aside on Quasars Quasars are way super bright, and so they make excellent probes of gas throughout distant space

Lyman Alpha Forest

Quasar Spectra: Emission Lines

Quasar Hosts

Supermassive Black Holes How to get so much energy from so little space?! Infall of matter onto a BH can liberate gravitational energy to be emitted as light

Ordering the Zoo

Getting the SBH Mass One way to estimate the BH mass is to use the Eddington limit AGN are incredibly luminous, but the BH mass must be large enough so that gravity results in a net infall, hence the mass must exceed

The Unified Model  Gas material is “fed” to a central SBH by an accretion disk  The disk glows to produce high luminosities  Magnetic fields channel some gas along poles to make jets  Zoo of AGN arise because of different SBH masses, feeding rates, and viewing perspectives

Illustration of AGN

Synchrotron: Magnetic Fields and Emission

How are ancient AGN related to galaxies today?