1 / 31

A Galactic halo road map

A Galactic halo road map. The halo stars : where, whither, whence?. Chris Thom, Jyrki H ä nninen, Johan Holmberg, Chris Flynn Tuorla Observatory Swinburne University of Technology. The Milky Way I. Disk, bulge and halo. Disk, bulge and halo. Disk and bulge dominate emission

miyoko
Download Presentation

A Galactic halo road map

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. A Galactic halo road map The halo stars : where, whither, whence? Chris Thom, Jyrki Hänninen, Johan Holmberg, Chris Flynn Tuorla Observatory Swinburne University of Technology

  2. The Milky Way I Disk, bulge and halo Disk, bulge and halo Disk and bulge dominate emission at all wavelengths

  3. The Milky Way II Visible mass Disk+bulge 99% Stellar Halo 1% Stellar halo : about 1% globular clusters and 99% stars.

  4. The Milky Way's halo Stellar halo : about 1% globular clusters and 99% stars. Mainly metal poor stars less than 10% of Solar metallicity. Large random motions and little net rotation around the Galactic center. Old: amongst the first stars born in the Galaxy.

  5. The halo's kinematics I Disk star orbits Halo star orbits

  6. Kinematics balances gravity Disk star orbits velocity translates directly to rotation support Vrot ~ 200 km/s Halo star orbits random velocities provide pressure support Vrandom ~ 200 km/s

  7. Structure in Andromeda's halo Spur of stars in M31's halo (Irwin et al 2001) Stellar halos are probably built up from fragments.

  8. There be fragments yet... The Milky Way has fragments breaking up even now Sagittarius Dwarf Canis Major Dwarf The Magellanic stream Globular cluster tidal tails

  9. The inner halo On phase mixing After dozens of orbits around the Galaxy, structure in coordinate and velocity space becomes smoothed out. Stars are said to be well mixed in phase space.

  10. The Galactic Mixmaster The stellar halo Inner regions : probably nicely mixed. Outer regions : probably still a little lumpy. Dissolving satellites and stellar streams

  11. On halo stars nearby I Components of the velocity dispersion  = (R, km/s Morrison, Flynn and Freeman 1990 Chiba and Beers 2000 Gould 2003 Determined from ~1000 halo stars found over many decades in searches out to about 1 kpc.

  12. On halo stars nearby II Nearby halo stars appear well mixed. CDM models predict a few hundred streams in the solar neighbourhood. Gould (2003) analysed 4500 motions of nearby halo stars. No strong evidence for any streams in the inner halo. 50 dwarf galaxies accreted over 10 Gyr : sim by Paul Harding

  13. Distant halo stars tell about dark matter and the formation of the galaxy Probing the distant halo I Useful probes : G and K giants RR Lyrae stars BHB stars

  14. Distant halo stars tell about dark matter and the formation of the galaxy Probing the distant halo II Flynn, Sommer-Larsen, Christensen 1996 used BHB stars to probe halo. Found 100 (!) stars up to 50 kpc distant. Measured radial velocities one-by-one. Developed weird model of halo to fit.

  15. Distant halo stars tell about dark matter and the formation of the galaxy Weird science Very peculiar kinematics found in halo: Near sun:km/s Outer halo:km/s Orbits of stars very different in outer halo (round) compared to near Sun (elliptical).

  16. Distant halo stars tell about dark matter and the formation of the galaxy Weird science II The model... Not the world's greatest fits!

  17. Distant halo stars tell about dark matter and the formation of the galaxy 6dF 1.2 m UK Schmidt telescope 6dF fibre fed spectrograph 150 objects observable simultaneously 6 degree field

  18. Distant halo stars tell about dark matter and the formation of the galaxy 6dFgalaxies The main 6dF survey is aimed at cosmic structure. Program aim: 180,000 2MASS selected (K band) galaxies.

  19. Distant halo stars tell about dark matter and the formation of the galaxy They do stars too... Hamburg/ESO survey (faint blue objects). 600 new BHB stars. 6dF spectra from UK Schmidt for velocities. Mainly toward inner halo. 10 kpc distant. Chris Thom's thesis work

  20. Distant halo stars tell about dark matter and the formation of the galaxy Sloan Digital Sky Survey Dedicated 2.5 m wide FOV telescope Fibre fed spectrograph 640 objects simultaneously Quarter sky to be surveyed Aiming for 1,000,000 galaxian redshifts

  21. Distant halo stars tell about dark matter and the formation of the galaxy Stars too... Selection by Sloan colours 1170 new BHB stars. Sloan velocities Fields mainly toward outer halo. 20-100 kpc distant. Stellar program as well ... 1170 BHB stars now released by Sirko et al 2003

  22. Distant halo stars tell about dark matter and the formation of the galaxy The 3D view 1770 stars in many directions (now) compared to 100 stars in 4 directions (1996) (X,Y,Z) coordinates 600 BHB stars (Thom) 1170 BHB stars (Sirko) /home/cflynn/helio/3dview

  23. Distant halo stars tell about dark matter and the formation of the galaxy Weird science III As we'll see, with the new data, the weird model predictions weren't too bad!

  24. Distant halo stars tell about dark matter and the formation of the galaxy Weird science IV But... a constant velocity dispersion 'model' fits too! Actually, both models are equally mediocre fits to the data...

  25. Distant halo stars tell about dark matter and the formation of the galaxy LOS velocity dispersion Model predictions verus observations in 6 different fields LOS km/s Thom et al 2004 data Distance along line of sight from Sun (kpc)

  26. Distant halo stars tell about dark matter and the formation of the galaxy LOS velocity dispersion Model predictions verus observations in 12 different fields LOS km/s Sirko et al 2003 data Distance along line of sight from Sun (kpc)

  27. Model summary Two models of the kinematics of halo stars in the literature. Flynn et al 1996, Sirko et al 2003. Circa 2000 distant halo stars, and 2000 very nearby halo stars as model constraints. Our model is physical, the Sirko 'model' phenomological. The physical model fits everywhere, the other only far from the Sun.

  28. Distant halo stars tell about dark matter and the formation of the galaxy Halo road maps I We can set up test particles following the model, and integrate their orbits for a Hubble time in the Galactic gravitational potential N = 50,000 massless stars in potential due to disk+bulge+dark halo Power law density distribution, velocities as  = (R,

  29. Distant halo stars tell about dark matter and the formation of the galaxy Halo road maps II Time Gyr Initially weird 0 5 10 15 Stays nicely weird!

  30. Distant halo stars tell about dark matter and the formation of the galaxy Halo road maps III Time Gyr Initially isothermal 0 5 10 15 Stays quite isothermal

  31. Distant halo stars tell about dark matter and the formation of the galaxy Conclusions Whence and wither the halo stars? Inner halo : well mixed, stars on elliptical orbits Outer halo: stars on roundish orbits? State of play Finally, there is plenty of data; the models are really naïve Inner halo orbits by far most promising test

More Related