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Quasar Host Galaxies: Growing up with Monstrous Middles. Kim K. McLeod, Wellesley College George Rieke, U. of Arizona Lisa Storrie-Lombardi, IPAC Brian McLeod, CfA Jill Bechtold, U. of Arizona. McLeod/Scientific American. Hosts, in the style of Astro101 (“’Scopes for dopes?”).
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Quasar Host Galaxies:Growing up with Monstrous Middles Kim K. McLeod, Wellesley College George Rieke, U. of Arizona Lisa Storrie-Lombardi, IPAC Brian McLeod, CfA Jill Bechtold, U. of Arizona McLeod/Scientific American
Hosts, in the style of Astro101(“’Scopes for dopes?”) 1984: “In a few quasars, we can actually observe the underlying galaxies in which they are embedded…”(Abell, Realm of the Universe) 1994: “It is very difficult to observe the ‘host galaxy’” Radio quiet = spiral; Radio loud = elliptical(Kaufmann, Universe) 2004: “Quasars turn out to be located in the centers of galaxies (!)…both spiral and elliptical…many involved in a collision.”(Fraknoi, Morrison, & Wolff, Voyages)
Argument by Analogy Why can’t grown astronomers tell a spiral from an elliptical?(even our C students can do this…)
Why we care (deeply!) Galaxy Gallery Merger and ULIRG Spirals STScI Wellesley students Elliptical We have met the enemy…
Hosts on the eve of HST Our program: --256x256 IR camera --image 50 z<0.4 quasars and 50 Seyferts Simultaneous with similar study by Dunlop et al.:--nicely matched samples of RLQ, RQQ, and RG--later got WFPC2 data
IR images from ground Quasars (what kind of galaxies ARE they???) Seyferts (obviously spirals, and some perfectly normal) K. McLeod/PASP
Radial profiles…my favorite way to spend the day! Three evil letters:Point Spread Function
Survey says: “Beefy black holes require beefy galaxies!” McLeod & Rieke 1995
WFPC2 on patrol! “Which of these things is not like the other?” K. McLeod/Sky&Telescope with thanks to John Bahcall
Bahcall et al. WFPC2 post PSF subtractionFINALLY BEAUTIFUL FUZZ! Only some of these look normal…and RQQ can live in ellipticals.
YOUR TAX $$ AT WORK! PG0947+396 at 1.6umNICMOS arrays on HST 2.4m … and the Steward 2.3m
Examples of NICMOS images of z<0.4 hosts McLeod & McLeod 2000 Sing “Ho” for the H-band…good for tracing stellar mass but NOT the best place to look for spiral arms.
More fun with profiles (Alas, we STILL can’t always tell a spiral from an elliptical!)
(z<0.4) Quasars follow the BH-bulge relation* and accrete at ~10% Eddington (by product: luminous RQQ often in ellipticals) *some BH masses measured by reverb mapping or virialized emission lines…
Growing up with a monster in the middle Kauffmann & Haehnelt 2000 Hierarchical structure formation: black holes are fueled, and galaxies grow, through mergers Z=0.4 Z=3
Hosts at higher redshift H K(z=4)
HST at z=2-3 Ridgway, Heckman, Calzetti, & Lehnert 2002Hutchings et al. 2002Kukula et al. 2001, with black hole masses from virialized MgII
Mirrors(HST) + Lenses(Gravitational) = a useful combination! CASTLES project, Peng et al. 2004
Kauffmann & Haehnelt 2000 Z=0.4 Wyithe & Loeb 2003 MBH/Mbulge~(1+z)^1.5 Z=3
Taking the big step to high-z:DoPANIC! Bechtold and McLeod have been using Magellan (6.5m) and Gemini (8m) to image z=4 quasars in the near-IR
HST and Seyferts: feeding the monster Martini, Regan, Mulchaey, & Pogge 2003“A Moon a minute”—P. Martini
Astro101 Revisited 2014: “In 2009, HST observations of large samples of hosts(from SDSS samples?)fuzz around z=4 quasars lensed quasars at high z elemental abundances in high-z quasars the nuclei of dwarf galaxies …(insert your favorites here)… showed how stars and black holes grow together starting from a seed masses of _______ inside dark matter halos to make the galaxies we see today.” H S T o ! o
Black hole v. spheroid mass—getting tighter!Haring & Rix 2003
ACS Weighs In—Hundreds of HostsMBH – MHost persists to z=1.3 in B-band rest frame (Grogin et al.)