APS April Meeting 2011
Volume 56, Number 4
Saturday–Tuesday, April 30–May 3 2011;
Anaheim, California
Session Y3: Searching for Dark Matter in Dwarf Spheroidal Galaxies
1:30 PM–3:18 PM,
Tuesday, May 3, 2011
Room: Garden 3
Sponsoring
Unit:
DAP
Chair: Elizabeth Hays, NASA Goddard Space Flight Center
Abstract ID: BAPS.2011.APR.Y3.1
Abstract: Y3.00001 : Dwarf galaxies as probes of dark matter
1:30 PM–2:06 PM
Preview Abstract
Abstract
Author:
Rosemary Wyse
(Johns Hopkins University)
The retinue of dwarf satellite galaxies that surrounds the Milky
Way galaxy include some of the faintest stellar systems known.
The low masses in ordinary baryons contrasts with their
gravitational masses derived from analyzes of the motions of
their member stars: the spread in internal velocities implies a
total mass that can be up to several orders of magnitude larger.
These dwarf galaxies are apparently the most dark-matter
dominated systems in the local Universe and offer an
unprecedented opportunity to determine the density profile of the
dark matter on small scales, where the physics of the dark matter
candidate is expected to be manifest. These are the only systems
where we have/can find dark matter localized at relatively high
density, without accompanying complex high-energy baryon physics.
They are therefore ideal (potential) probes of possible dark
matter self-annihilation/decay processes. Defining their mass
profiles is clearly critical to the interpretation of any signal
in high-energy particles or photons.
The necessary experiment is to obtain and analyze the velocities
of member stars as a function of distance from the center of the
dwarf galaxy. Our ability to carry out this experiment is limited
by several factors, including the fact that we can only measure
one component of the velocity, the faintness of the systems means
that it is not trivial to observe the required statistically
significant sample of stars, and the velocity amplitudes are
sufficiently small that the required precision challenges the
best instruments. I will review the
state-of-the-art, focusing on constraining the mass profile.
I will also discuss other aspects of these intriguing systems
that distinguish them from simple star clusters. I will describe
the evidence, from the properties of their stellar populations
and chemical element abundance distributions, that these are
ancient galaxies, plausibly the earliest bound structures to have
formed in the Universe.
To cite this abstract, use the following reference: http://meetings.aps.org/link/BAPS.2011.APR.Y3.1