Average mass and light profiles of galaxy clusters

The systematic errors in the virial mass-to-light ratio, M(upsilon)/L, of galaxy clusters as an estimator of the field M/L value are assessed. We overlay 14 clusters in redshift space to create an ensemble cluster that averages over substructure and asymmetries. The combined sample, including background, contains about 1150 galaxies, extending to a projected radius of about twice r(200). The radius r(200), defined as where the mean interior density is 200 times the critical density, is expected to contain the bulk of the virialized cluster mass. The dynamically derived M(r(200))/L(r(200)) of the ensemble is (0.82 +/- 0.14)[M(upsilon)/L]. The M(upsilon)/L overestimate is attributed to not taking into account the surface pressure term in the virial equation. Under the assumption that the velocity anisotropy parameter is in the range 0 less than or equal to beta less than or equal to 2/3, the galaxy distribution accurately traces the mass profile beyond about the central 0.3r(200). There are no color or luminosity gradients in the galaxy population beyond 2r(200), but there is 0.11 +/- 0.05 mag fading in the r-band luminosities between the field and cluster galaxies. We correct the cluster virial mass-to-light ratio, M(upsilon)/L = 289 +/- 50 h M./L. (calculated assuming q(0) = 0.1), for the biases in M(upsilon) and mean luminosity to estimate the field M/L = 213 +/- 59 h M./L.. With our self-consistently derived field luminosity density, j/rho(c) = 1136 +/- 138 h M./L. (at z similar or equal to 1/3), the corrected M/L indicates Ohm(0) = 0.19 +/- 0.06 +/- 0.04 (formal 1 sigma random error and estimated potential systematic errors) for those components of the mass field in rich clusters.