Observations of Ultra-Faint GalaxiesAssume: Dwarf galaxies are old, metal-poor stellar populations,...

23
Observations of Ultra-Faint Galaxies Marla Geha Yale University Sloan Digital Sky Survey (SDSS) coverage Belokurov et al. (2006)

Transcript of Observations of Ultra-Faint GalaxiesAssume: Dwarf galaxies are old, metal-poor stellar populations,...

Page 1: Observations of Ultra-Faint GalaxiesAssume: Dwarf galaxies are old, metal-poor stellar populations, with typical size ~ 50-100pc. This defines a narrow region in color-magnitude space.

Observations of Ultra-Faint Galaxies

Marla GehaYale University

Sloan Digital Sky Survey (SDSS) coverage

Belokurov et al. (2006)

Page 2: Observations of Ultra-Faint GalaxiesAssume: Dwarf galaxies are old, metal-poor stellar populations, with typical size ~ 50-100pc. This defines a narrow region in color-magnitude space.

WDM Constraints from Isolated Dwarf Galaxies

Isolated galaxies presumably suffer less astrophysics (gas/tidal stripping).

To find a sufficiently large sample of isolated dwarf galaxies, need to survey large volume

(ΛCMD)

Predicted mass function of ΛCDM vs. WCD differ atlow masses.

Alfalfa?

Blanton, Geha & West (2008)

Page 3: Observations of Ultra-Faint GalaxiesAssume: Dwarf galaxies are old, metal-poor stellar populations, with typical size ~ 50-100pc. This defines a narrow region in color-magnitude space.

Why don’t larger samples of isolated dwarf galaxies exist?

Nearby (>100Mpc) dwarfs have similar sizes/colors as more numerous higher redshift objects.

Page 4: Observations of Ultra-Faint GalaxiesAssume: Dwarf galaxies are old, metal-poor stellar populations, with typical size ~ 50-100pc. This defines a narrow region in color-magnitude space.

The Milky Way Ultra-Faint Galaxies

Dark matter uses for ultra-faint galaxies: a) Luminosity/mass function of satellites as test of CMD b) Indirect detection experiments

Page 5: Observations of Ultra-Faint GalaxiesAssume: Dwarf galaxies are old, metal-poor stellar populations, with typical size ~ 50-100pc. This defines a narrow region in color-magnitude space.

The ultra-faint galaxies are found via over-densities of resolved stars.

Finding the Milky Way Ultra-Faint Galaxies

Milky Way stellar foreground overwhelms the dwarf galaxy.

Page 6: Observations of Ultra-Faint GalaxiesAssume: Dwarf galaxies are old, metal-poor stellar populations, with typical size ~ 50-100pc. This defines a narrow region in color-magnitude space.

Finding the Milky Way Ultra-Faint Galaxies

Milky Way stellar foreground overwhelms the dwarf galaxy.

The ultra-faint galaxies are found via over-densities of resolved stars.

Page 7: Observations of Ultra-Faint GalaxiesAssume: Dwarf galaxies are old, metal-poor stellar populations, with typical size ~ 50-100pc. This defines a narrow region in color-magnitude space.

(g - r)

r

A generous definition of old and metal-poor:age = 8 to 14 Gyr [Fe/H] = -1.5 to -2.3

Distance = 20 kpc

Assume: Dwarf galaxies are old, metal-poor stellar populations, with typical size ~ 50-100pc. This defines a narrow region in color-magnitude space.

Walsh, Willman & Jerjen (2008)

SDSS mag limit

Finding the Milky Way Ultra-Faint Galaxies

Page 8: Observations of Ultra-Faint GalaxiesAssume: Dwarf galaxies are old, metal-poor stellar populations, with typical size ~ 50-100pc. This defines a narrow region in color-magnitude space.

Filtered CMD StarsFinding the Milky Way Ultra-Faint Galaxies

Page 9: Observations of Ultra-Faint GalaxiesAssume: Dwarf galaxies are old, metal-poor stellar populations, with typical size ~ 50-100pc. This defines a narrow region in color-magnitude space.

Filtered+SmoothedFinding the Milky Way Ultra-Faint Galaxies

1. Assumed old/metal-poor stellar population2. Assumed physical size

Page 10: Observations of Ultra-Faint GalaxiesAssume: Dwarf galaxies are old, metal-poor stellar populations, with typical size ~ 50-100pc. This defines a narrow region in color-magnitude space.

Finding the Milky Way Ultra-Faint Galaxies

1. Assumed old/metal-poor stellar population2. Assumed physical size

=> could still be missing even lowersurface brightness galaxies.

Page 11: Observations of Ultra-Faint GalaxiesAssume: Dwarf galaxies are old, metal-poor stellar populations, with typical size ~ 50-100pc. This defines a narrow region in color-magnitude space.

Milky Way stellar foreground overwhelms the ultra-faint dwarf galaxy.

Raw Image Ultra-faint Stars-onlyFinding the Milky Way Ultra-Faint Galaxies

Page 12: Observations of Ultra-Faint GalaxiesAssume: Dwarf galaxies are old, metal-poor stellar populations, with typical size ~ 50-100pc. This defines a narrow region in color-magnitude space.

luminosity (LV)

M300pc

Kinematics of Ultra-Faint Galaxies

Mass/density profiles depend on assumption that measured velocities probe gravitational potential

Strigari et al 2008 Martinez et al 2009

Page 13: Observations of Ultra-Faint GalaxiesAssume: Dwarf galaxies are old, metal-poor stellar populations, with typical size ~ 50-100pc. This defines a narrow region in color-magnitude space.

Kinematics of Segue 1MV ~ -1.5

LV ~ 340 Lsun

MW stars

Geha et al (2009)

Page 14: Observations of Ultra-Faint GalaxiesAssume: Dwarf galaxies are old, metal-poor stellar populations, with typical size ~ 50-100pc. This defines a narrow region in color-magnitude space.

MW stars

Kinematics of Segue 1MV ~ -1.5

LV ~ 340 Lsun

If mass from stars only = 0.4 km/s Measured = 4.5 km/s

Geha et al (2009)

Page 15: Observations of Ultra-Faint GalaxiesAssume: Dwarf galaxies are old, metal-poor stellar populations, with typical size ~ 50-100pc. This defines a narrow region in color-magnitude space.

MW stars

MW stars

Published data

New data (March 2009)

Page 16: Observations of Ultra-Faint GalaxiesAssume: Dwarf galaxies are old, metal-poor stellar populations, with typical size ~ 50-100pc. This defines a narrow region in color-magnitude space.

Segue 1 stars

Sagittarius stars?

Page 17: Observations of Ultra-Faint GalaxiesAssume: Dwarf galaxies are old, metal-poor stellar populations, with typical size ~ 50-100pc. This defines a narrow region in color-magnitude space.

Metallicity of Ultra-Faint Dwarfs

No known globular cluster with [Fe/H] < -2.4

Kinematics data also provides estimate of stellar metallicity.

Luminosity-metallicityrelationship suggestsultra-faints formed asgalaxies.

Ultra-faints

Classical dSphs

Page 18: Observations of Ultra-Faint GalaxiesAssume: Dwarf galaxies are old, metal-poor stellar populations, with typical size ~ 50-100pc. This defines a narrow region in color-magnitude space.

Prelim Result: Coma does not show evidence for tidal stripping at large radius/low surface brightness.

Testing Tidal Stripping Another Way

R. Munoz et al (2009)

SDSS limits

Page 19: Observations of Ultra-Faint GalaxiesAssume: Dwarf galaxies are old, metal-poor stellar populations, with typical size ~ 50-100pc. This defines a narrow region in color-magnitude space.

Testing Tidal Stripping Another Way

R. Munoz et al (2009)

Ursa Major II

Prelim Result: UMaII shows evidence for elongation well beyond the expected tidal radius.

Page 20: Observations of Ultra-Faint GalaxiesAssume: Dwarf galaxies are old, metal-poor stellar populations, with typical size ~ 50-100pc. This defines a narrow region in color-magnitude space.

Finding New Milky Way Satellites

Dark matter uses for ultra-faint galaxies: a) Luminosity/mass function of satellites as test of CMD b) Indirect detection experiments

Page 21: Observations of Ultra-Faint GalaxiesAssume: Dwarf galaxies are old, metal-poor stellar populations, with typical size ~ 50-100pc. This defines a narrow region in color-magnitude space.

MI

Distance (kpc)Su

rvey

mag

nitu

de li

mit

SDSS:45kpc

LSST400kpc

Bright dSphs

Faint dSphs

MW M31

Finding New Milky Way Satellites

Page 22: Observations of Ultra-Faint GalaxiesAssume: Dwarf galaxies are old, metal-poor stellar populations, with typical size ~ 50-100pc. This defines a narrow region in color-magnitude space.

Distance from MW (kpc)Vo

lum

e fr

actio

n of

MW

Finding New Milky Way Satellites

~Virial radius of MW

Page 23: Observations of Ultra-Faint GalaxiesAssume: Dwarf galaxies are old, metal-poor stellar populations, with typical size ~ 50-100pc. This defines a narrow region in color-magnitude space.

Summary

• Minimum galactic halo mass reached?

• New dwarfs alleviate ‘Missing Satellite’ problem.

• Good targets for upcoming γ-ray observatories.

• Less luminous galaxies (300 < L⊙ < 100,000).

• Highest mass-to-light ratios (M/L > 100).

• Most metal-poor stellar systems ([Fe/H] ~ -2.5)

The ultra-faint dwarfs are extreme in every sense:

The ultra-faint dwarfs are good probes of dark matter: