DISTANCE TO THE COMA CLUSTER AND A VALUE FOR H-0 INFERRED FROM GLOBULAR-CLUSTERS IN IC-4051

We report HST-WFPC2 observations of the giant E2 galaxy IC 4051 locate d 14' east of the center of the Coma Cluster. Eight full-orbit exposur es were obtained with the F606W filter, and two with the F814W filter. Counts of globular clusters (GCs) in 0.2-mag wide bins were made with in the PC1 (f/28) frame, where faint GCs can be distinguished from noi se spikes and background objects by PSF fitting. The detection probabi lity was above 86% for F606W<27.6 mag, and it was 40% at F606W=28.1 ma g (bin center), which we chose as a working threshold. The latter is e quivalent to V approximate to 28.4 mag, which is beyond the peak (turn over) of the globular cluster luminosity function (GCLF). After very s mall k and reddening corrections, we found the mean rest-frame color i ndex of the IC 4051 GCs to be (V-I)(0)=1.06 mag, which implies [Fe/H]= -0.74 and is about average for the GC systems of giant elliptical gala xies. The intrinsic dispersion of color indices is sigma(V-I)=0.16 mag . The specific frequency of the GC system in IC 4051 is similar to 10, which is an order of magnitude larger than we found in the Coma EO ga laxy NGC 4881. Using a maximum likelihood method, we have compared the observed GCLF of IC 4051 with model GCLFs transported to various stra wman Coma Cluster distances, with photometric errors and incompletenes s taken into account. For a model based on the CC systems of the Milky Way and M31, the inferred bolometric modulus of IC 4051 is 35.15+/-0. 16 mag. For a model based on the GC system of M87, the apparent V modu lus difference (IC 4051 minus M87) is 4.15+/-0.07 mag, and the inferre d bolometric modulus of IC 4051 is 35.07+/-0.17 mag. These moduli rest on RR Lyrae and Cepheid zero points that may be subject to future adj ustments. The difference between the IC 4051 modulus based on the spir al-galaxy GCLF model (Milky Way and M31) and that based on the ellipti cal-galaxy GCLF model (M87) is only 0.08+/-0.23 mag, which is not stat istically significant. Adopting the mean IC 4051 bolometric modulus, 3 5.11+/-0.12 mag, and assuming q(0)=0.5, we obtain a luminosity distanc e of 105+/-6 Mpc (random error). For a cosmological redshift of 7186+/ -428 km/s, the implied Hubble Constant H-0=68+/-6 km/s per Mpc. (C) 19 97 American Astronomical Society.