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Lecture 9: Quasars & “Active” Galaxies Astronomy 5: The Formation and Evolution of the Universe Sandra M. Faber Spring Quarter 2007 UC Santa Cruz.

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Presentation on theme: "Lecture 9: Quasars & “Active” Galaxies Astronomy 5: The Formation and Evolution of the Universe Sandra M. Faber Spring Quarter 2007 UC Santa Cruz."— Presentation transcript:

1 Lecture 9: Quasars & “Active” Galaxies Astronomy 5: The Formation and Evolution of the Universe Sandra M. Faber Spring Quarter 2007 UC Santa Cruz

2 Maarten Schmidt identified the first quasar 3C273 in 1963 z = 0.158 => 2 billion lyr Diffraction spikes produced in telescope; only for point source. Shows quasar is star-like.

3 3C48 was the second quasar, found soon after z = 0.367 => 4 billion lyr

4 Comparing the resolution of HST with a ground-based photo Ground Hubble Space Telescope

5 With the high resolution of HST, we could subtract off the bright star- like quasar to reveal the underlying galaxy clearly for the first time

6 Many quasars are found in colliding galaxies; mergers “trigger” quasars High-resolution HST images of QSOs reveal host galaxies. The brightest QSOs are 1000 times the brightness of the Milky Way.

7 Black holes can shine by having an “accretion disk”

8 Seyfert galaxies are AGNs of intermediate brightness in galaxies that are not disturbed Seyfert: NGC 5548 Normal galaxy: NGC 3277 Quasar-like point source The relationship of Seyferts to quasars is unclear, but they are believed to also shine by active black holes.

9 M87: A nearby giant elliptical galaxy with central AGN and radio “jet” 3 billion M  central black hole M87 nearby giant elliptical

10 3 billion M  central black hole M87 nearby giant elliptical M87: A nearby giant elliptical galaxy with central AGN and radio “jet” VLA radio image

11 A pair of galaxies in the process of merging, each with its own black hole and radio jets An optical image showing the galaxies as two fuzzy blobs superimposed on the VLA radio image showing the radio jets. 25,000 lyr Z = 0.023 => 320 million lyr

12 Cygnus A: one of the largest radio galaxies in the Universe Z = 0.056 500,000 light years

13 Radio galaxies shine by emitting synchrotron radiation

14 Cygnus A: one of the largest radio galaxies in the Universe Z = 0.056 500,000 light years Beam of charged particles and magnetic field ejected near the speed of light Particles hit gas outside galaxy and slow down; inflate a cavity in gas

15 3 billion M  central black hole M87 nearby giant elliptical VLA radio image M87: A nearby giant elliptical galaxy with central AGN and radio “jet”

16 Weaker radio galaxies have “fluffier” radio lobes The peculiar nearby elliptical NGC 1316 with radio lobes

17 NGC 4261NGC 7052 Spheroids host massive central black holes, which power quasars and other kinds of active galactic nuclei (AGNs)

18 Our Milky Way observed with adaptive optics at the 10-meter Keck telescope

19 Stars in orbit about the Milky Way’s BH give a mass of 3 million solar masses

20 3-d movie of orbiting stars at center of MW

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