The Core of M87 (at the center of Virgo)Radio JetsGiant Radio LobesSeyfert GalaxiesQuasars (Quasi-stellar Objects)Host Galaxies of QuasarsSupermassive Black HolesEvidence of a very small sizeMeasuring the Monster’s MassThe Best Case of a mass and disk measurementBlack Hole blowing bubblesImages of AGN disksJet MechanismZooming in on the “central engine”Unification of Active Galactic NucleiDistances to Nearby GalaxiesDistances deep into the UniverseHubble Expansion – what it is notHubble Expansion – what it isThere is no spatial center of expansion…The motion is only “apparent”Local structure interferes with Hubble flowGalactic RedshiftsThe Hubble Constant and the Age of the UniverseCepheids are the key linkRedshift takes us from 2-D to 3-DQuasar Spectra and the “Lyman-alpha Forest”Cosmic FoamThe Core of M87 (at the center of Virgo)Radio JetsGiant Radio LobesIf the jets last long enough, they can blast out of the galaxy for millions of light years: the largest single coherent structures in the universe.Seyfert GalaxiesIncreasing exposure times….Some galaxies have unusually bright nuclei…Quasars(Quasi-stellar Objects)QSOStarStrange “stars” were found with spectral lines that turned out to be normal lines but at extremely high red Doppler shifts. The expansion of the Universe means that they must be VERY far away, yet they were not too faint. Even Seyfert nuclei would not be bright enough. The energy output would have to be up to 100’s of times that from a whole normal galaxy, but the source was point-like.Host Galaxies of QuasarsFinally, we were able to obtain deep images of quasars, and show that indeed they are extremely bright galactic nuclei. The only power source that is adequate is a supermassive black hole, eating up to several solar masses per year.Supermassive Black HolesYou know the Milky Way has a 3 million solar mass BH at its center. Are they common? Bigger?Centaurus ALuminosities seem to require them.How could we prove the theory?A billion solar mass black hole is still only the size of the solar system.Evidence of a very small sizeMeasuring the Monster’s MassThe Best Case of a mass and disk measurementUsing very long baseline radio interferometry, very bright spots very near an active galactic nucleus have been seen actually in orbit around it. We have both their Doppler shift and their motion on the sky. This gives the size and configuration of the disk, and a direct measurement of the black hole mass.Black Hole blowing bubblesImages of AGN disksRecently, the theory of AGN has received spectacular visual confirmation from the Hubble Space Telescope.Jet MechanismThe magnetic field pulled in near the black hole can wind around it, and gas is forced out at very high speeds along the rotation axis, making the superjets.Zooming in on the “central engine”Unification of Active Galactic NucleiDepending on what the viewing angle is, what we see can be rather different. This is now sorted out.Distances to Nearby GalaxiesThe distance to… Is measured by… Which gives you…Venus Radar echoes Astronomical UnitNearby Stars Parallax Main sequence luminositiesStar Clusters Main sequence fitting Luminosities of CepheidsNearby Galaxies Apparent brightness of CepheidsRelation of distance to redshiftThere is a chain of links which get us out to the distances of galaxies. Errors in any one affect all the further ones.Distances deep into the UniverseYou must use nearby galaxies to calibrate distance indicators that can be seen across the Universe.1) brightest star (hypergiants), then HII region (star form.)2) largest spiral in cluster3) brightest galaxy in cluster“Tully-Fisher” relation: Luminosity in red or infrared correlated with 21-cm broadening (number of stars) (rotation rate)Hubble expansion: distance correlated with redshiftHubble Expansion – what it is notIn an explosion, the stuff that is moving faster will have gotten further, so you would see what Hubble saw. Despite the term “Big Bang” to describe the expanding Universe, that is NOT what is going on!Hubble Expansion – what it isSpace itself is expanding… into the future…The apparent increase of velocity with distance is due to the increase in the amount of space that has expanded in a given amount of time.There is no spatial center of expansion…The center is the beginning…There is no edge (except the present)The motion is only “apparent”Galaxies stay fixed on the “co-moving” grid.Their separation only increases because the amount of space between them increases. The scale of the Universe increases, but not the scale of particles, galaxies, or even clusters (anything bound). The expansion is only apparent on scales of millions of light years.Local structure interferes with Hubble flowSupercluster density field“Local” flow fieldWe have to be careful in determining the expansion rate.Galactic RedshiftsThe relation is given by D=v/H ; D is distance, v is redshift velocity, and H is the “Hubble constant”. H is about 25 (km/s)/(million ly).The redshift is called “z”, where z = ~ v/c. Remember these are only apparent velocities, caused by the expansion of space.The Hubble Constant and the Age of the UniverseIf you plot the scale of the Universe vs time, the Hubble constant is the slope of the line now. If it’s really constant, then the age of the Universe is just 1/H [since H=v/D=(d/t)/d]. That’s because if you know how fast we are expanding, you can run the movie backwards and see when everything crunches together.If the Universe is slowing its expansion, you get a younger age.You can compare the age gotten this way with the oldest globular cluster, or other independent methods. Recently they have all come into agreement.Cepheids are the key linkOne primary justification for the Hubble Space Telescope was to resolve Cepheids in galaxies far enough away to measure the Hubble flow properly, and thus obtain the age of the Universe. Along with other methods, this gives about 14 billion years.Redshift takes us from 2-D to 3-DHuge surveys are ongoing to get redshifts for hundreds of thousands of galaxies. These give us the large-scale structure of the Universe.Quasar Spectra and the “Lyman-alpha Forest”Galaxy “Filaments”QSOusRedshifts tell us where everything is…Cosmic FoamGravity acting on dark matter gives the basic layout of matter in space. Clusters will continue to collect, but the space between them will continue to
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