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Galaxies with Active Nuclei Chapter 14:. Active Galaxies Galaxies with extremely violent energy release in their nuclei (pl. of nucleus).  “active galactic.

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Presentation on theme: "Galaxies with Active Nuclei Chapter 14:. Active Galaxies Galaxies with extremely violent energy release in their nuclei (pl. of nucleus).  “active galactic."— Presentation transcript:

1 Galaxies with Active Nuclei Chapter 14:

2 Active Galaxies Galaxies with extremely violent energy release in their nuclei (pl. of nucleus).  “active galactic nuclei” (= AGN) Up to many thousand times more luminous than the entire Milky Way; energy released within a region approx. the size of our solar system!

3 Line Spectra of Galaxies Taking a spectrum of the light from a normal galaxy: The light from the galaxy should be mostly star light, and should thus contain many absorption lines from the individual stellar spectra.

4 Seyfert Galaxies NGC 1566 Circinus Galaxy Unusual spiral galaxies: Very bright cores Emission line spectra. Variability: ~ 50 % in a few months Most likely power source: Accretion onto a supermassive black hole (~10 7 – 10 8 M sun ) NGC 7742

5 Interacting Galaxies Seyfert galaxy NGC 7674 Active galaxies are often associated with interacting galaxies, possibly result of recent galaxy mergers. Seyfert galaxy 3C219 Often: gas outflowing at high velocities, in opposite directions

6 Cosmic Jets and Radio Lobes Many active galaxies show powerful radio jets Radio image of Cygnus A Material in the jets moves with almost the speed of light (“relativistic jets”). Hot spots: Energy in the jets is released in interaction with surrounding material

7 Radio Galaxies Radio image superposed on optical image Centaurus A (“Cen A” = NGC 5128): the closest AGN to us. Jet visible in radio and X- rays; show bright spots in similar locations. Infrared image reveals warm gas near the nucleus.

8 Radio Galaxies (II) Evidence for the galaxy moving through intergalactic material Radio image of 3C75 3C75: Evidence for two nuclei  recent galaxy merger Visual + radio image of 3C31 Radio image of NGC 1265

9 Formation of Radio Jets Jets are powered by accretion of matter onto a supermassive black hole. Black Hole Accretion Disk Twisted magnetic fields help to confine the material in the jet and to produce synchrotron radiation.

10 The Jets of M87 M87 = Central, giant elliptical galaxy in the Virgo cluster of galaxies Optical and radio observations detect a jet with velocities up to ~ 1/2 c. Jet: ~ 2.5 kpc long

11 The Dust Torus in NGC4261 Dust torus is directly visible with Hubble Space Telescope

12 Model for Seyfert Galaxies Supermassive black hole Accretion disk dense dust torus Gas clouds Seyfert I: Strong, broad emission lines from rapidly moving gas clouds near the black hole Seyfert II: Weaker, narrow emission lines from more slowly moving gas clouds far from the black hole UV, X-rays Emission lines

13 Radio Galaxy: Powerful “radio lobes” at the end points of the jets, where power in the jets is dissipated. Cyg A (radio emission) Other Types of AGN and AGN Unification Observing direction

14 Emission from the jet pointing towards us is enhanced (“Doppler boosting”) compared to the jet moving in the other direction (“counter jet”). Other Types of AGN and AGN Unification Quasar or BL Lac object (properties very similar to quasars, but no emission lines) Observing direction

15 The Origin of Supermassive Black Holes Most galaxies seem to harbor supermassive black holes in their centers. Fed and fueled by stars and gas from the near- central environment Galaxy interactions may enhance the flow of matter onto central black holes

16 Quasars Active nuclei in elliptical galaxies with even more powerful central sources than Seyfert galaxies. Also show very strong, broad emission lines in their spectra. Also show strong variability over time scales of a few months.

17 The Spectra of Quasars The Quasar 3C273 Spectral lines show a large redshift of z =   = 0.158

18 Quasar Red Shifts z = 0 z = 0.178 z = 0.240 z = 0.302 z = 0.389 Quasars have been detected at the highest redshifts, up to z ~ 6 z =  /  Our old formula  /  = v r /c is only valid in the limit of low speed, v r << c

19 Studying Quasars The study of high-redshift quasars allows astronomers to investigate questions of 1) Large scale structure of the universe 2) Early history of the universe 3) Galaxy evolution 4) Dark matter Observing quasars at high redshifts  distances of several Gpc  Look-back times of many billions of years  Universe was only a few billion years old!

20 Probing Dark Matter with High-z Quasars: Gravitational Lensing Light from a quasar behind a galaxy cluster is bent by the mass in the cluster. Use to probe the distribution of matter in the cluster. Light from a distant quasar is bent around a foreground galaxy  two images of the same quasar!

21 Gravitational Lensing of Quasars

22 Gallery of Quasar Host Galaxies Elliptical galaxies; often merging / interacting galaxies

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