ASTRON 449: Stellar (Galactic) Dynamics. Fall 2014

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ASTRON 449: Stellar (Galactic) Dynamics Fall 2014

In this course, we will cover the basic phenomenology of galaxies (including dark matter halos, stars clusters, nuclear black holes) theoretical tools for research on galaxies: potential theory, orbit integration, statistical description of stellar systems, stability of stellar systems, disk dynamics, interactions of stellar systems numerical methods for N-body simulations time permitting: kinetic theory, basics of galaxy formation

This will allow us, e.g. to measure the masses of stellar systems and massive black holes understand the origin of spiral structure in galactic disks and the formation of elliptical galaxies understand how the dynamics of galaxies differ from the dynamics of dense star clusters prepare for research on galaxies, and in many other areas of astrophysics

Galaxy phenomenology Reading: BT2, chap. 1 intro and section 1.1

What is a galaxy? The Milky Way disk of stars, dust, and gas ~10 11 stars 4 10 6 Msun black hole Sun 8 kpc 1 pc 3 lyr Gravity turns gas into stars (all in a halo of dark matter)

Galaxies are the building blocks of the Universe Hubble Space Telescope Ultra-Deep Field

Luminosity and mass functions Optical MW is L* galaxy dwarfs Near UV Schechter fits: M = 2.5 log 10 L + const. Local galaxies from SDSS; Blanton & Moustakas 08

Hubble s morphological classes bulge or spheroidal component late type" early type" barred http://skyserver.sdss.org/dr1/en/proj/advanced/galaxies/tuningfork.asp Not a time or physical sequence

Galaxy rotation curves: evidence for dark matter M33 rotation curve from http://en.wikipedia.org/wiki/galaxy_rotation_curve

Galaxy clusters lensing arcs Abell 1689 most massive gravitational bound objects in the Universe contain up to thousands of galaxies most baryons intracluster gas, T~10 7-10 8 K gas smaller collections of bound galaxies are called 'groups'

Bullet cluster: more evidence for dark matter two clusters that recently collided gravitational mass traced by weak lensing (blue) gas (collisional) stuck in middle Bradac & Allen

wellstudied MW satellites 780 kpc most massive

Open clusters NGC 3590 ~102-104 stars, irregular most younger than 1 Gyr, in disk most stars probably formed in open clusters, which have since dissolved

Globular clusters M80 ~10 4-10 6 stars, nearly spherical little dust, gas, young stars, or dark matter central stellar density 10 4 Msun pc -3 (compared to 0.05 Msun pc -3 for solar neighborhood) direct interactions between stars (collisional effects)

Galaxy collisions Antennae collisions between galaxies are common, e.g. MW and Andromeda will merge in ~3 Gyr mass ratio >1:3 major merger (otherwise, minor) create tidal features, stellar bulges

Formation of ellipticals by major mergers of two disk galaxies N-body simulation (viz credit: Patrik Jonsson) Note: stars typically do not collide in a galaxy collision (collisionless dynamics)!

Nuclear black holes 10-4 pc all (massive) galaxies appear to have one in MW (Sgr A*), MBH=4 10 6 Msun, measured using individual stellar orbits

Active galactic nuclei Mrk 231 accreting nuclear black holes visible as AGN the most luminous AGN are called quasars (can outshine entire host galaxy) in local Universe, quasars are associated with galaxy mergers

Scaling relations, and other correlations

Tully-Fisher: luminosity - circular velocity for spirals Sakai+00 log 10 LR 10 10 L =3.5 log 10 v c 200 km s 1 +0.5

Faber-Jackson: luminosity - velocity dispersion for ellipticals Faber & Jackson 76 log 10 150 km s 1 =0.25 log 10 LR 10 10 M Projection of tighter fundamental plane for ellipticals in effective radiusvelocity dispersion-surface brightness space (see BT2, p. 23)

M-σ: black hole mass - stellar bulge velocity dispersion Magorrian: MBH ~ 0.002 Mbulge McConnell & Ma 12

Color, luminosity, morphology correlations color: blue red disk elliptical luminosity Blanton & Moustakas 08

Kennicutt-Schmidt law: star formation rate - gas mass surface density Gravity only: Star form. rate Gas mass Free fall time stellar feedback Genzel+10

Redshift evolution

Cosmological simulations of galaxy formation Follow dark matter, gas, and stars from Big Bang initial conditions Milky Way mass Reveal complex formation histories (smooth gas accretion, galaxy mergers, effects of feedback) Galaxies change with redshift: clumpy smooth red=10 6 K! green=10 4 K! magenta=10 2 K

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