Physical Interpretation of the Mass-Luminosity Relation of Dwarf Spheroidal Galaxies

Abstract

We discuss a physical interpretation of the relation between M vir/L and M vir of dwarf spheroidal galaxies (dSphs), where M vir and L are the virial mass and the total luminosity of a dSph, respectively. We used 11 dSphs in the Local Group as the sample. We find two distinct sequences on the M vir/L--M vir plane: M vir/L M vir2.0 for dSphs with M vir<108M, whereas M vir/L constant for M vir>108M. A ``discontinuity'' is seen at M vir 108M. We interpret the ``discontinuity'' as the threshold for the gas in dSphs to be blown away by successive supernovae. If a dSph has virial mass (most of which is dark mass) less than 108M, the gas is blown away, while in a dSph of larger mass, the deep potential well prevents the blow-away mechanism from working effectively. Thus, large mass ratio of dark matter (DM) to baryonic matter (i.e., large M vir/L) is realized in a low-mass (M vir<108M) dSph through the gas depletion, whereas M vir/L becomes lower in high-mass (M vir>108M) dSphs. We further make an attempt to explain the above relation for the low-mass dSphs, M vir/L M vir2.0, based on estimate of cooling time, using the scaling laws of virial temperature, virial mass and radius of a dSph and assuming that the heating by OB-star radiation terminates the star formation activity. We succeed in deriving the above relation for the mass-to-light ratio and luminosity.

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