We present new deep VI ground-based photometry of the Local Group dwarf gal
axy Phoenix. Our results confirm that this galaxy is mainly dominated by re
d stars, with some blue plume stars indicating recent (100 Myr old) star fo
rmation in the central part of the galaxy.
We have performed an analysis of the structural parameters of Phoenix based
on an ESO/SRC scanned plate, in order to search for differentiated compone
nts. The elliptical isopleths show a sharp rotation of similar or equal to
90 degrees of their major axis at radius r similar or equal to 115 " from t
he center suggesting the existence of two components: an inner component fa
cing in the east-west direction, which contains all the young stars, and an
outer component oriented north-south, which seems to be predominantly popu
lated by old stars. These results were then used to obtain the color-magnit
ude diagrams for three different regions of Phoenix in order to study the v
ariation of the properties of its stellar population.
The young population located in the central component of Phoenix shows a cl
ear asymmetry in its distribution, with the younger blue plume stars predom
inantly located in the western half of the central component and the older
core helium-burning stars predominantly situated in the east. This spatial
variation could indicate a propagation of star formation across the central
component. The H I cloud found at similar to 6 ' southwest by Young & Lo c
ould have been involved in this process. We also find a decreasing gradient
in the density of the intermediate-age population with the galactocentric
radius, based on the number of stars populating the red clump in the color-
magnitude diagram. Since no metallicity gradient is apparent, this indicate
s the presence of a substantial intermediate-age population in the central
region of Phoenix that would be less abundant or absent in its outer region
s. This result is also consistent with the gradient found in the number of
horizontal-branch stars, whose frequency relative to red giant branch stars
increases toward the outer part of the galaxy. These results, together wit
h those of our morphological study, suggest the existence of an old, metal-
poor population with a spheroidal distribution surrounding the younger inne
r component of Phoenix. This two-component structure may resemble the halo-
disk structure observed in spirals, although more data, in particular on ki
nematics, are necessary to confirm this.
We have estimated the average star formation rate for the last 1 Gyr and fo
r the age interval 1-15 Gyr from the number of blue and red giant branch an
d asymptotic giant branch stars observed in the color-magnitude diagram. Fo
r the central region, the average past star formation rate is very similar
to that for the last 1 Gyr. The recent star formation rate of Phoenix is al
so comparable to that displayed by typical dIrr galaxies, except perhaps fo
r the fact that it lacks any strong very recent burst as exhibited by galax
ies such as Sextans A or NGC 6822. The area-normalized star formation rate
for the central region of Phoenix is in the range obtained by Hunter & Gall
agher for their sample of dIrr galaxies.
We have determined a distance modulus for Phoenix of(m - M)(0) = 23.0 +/- 0
.1 using the tip of the red giant branch as a distance indicator. We find f
our short-period variable candidates from our photometry that might be anom
alous Cepheids or W Vir stars. Finally, it is very unlikely that Phoenix ha
s globular clusters, as is expected for a galaxy with such a faint absolute
magnitude.