Fitting optical source counts with an infrared-defined model: insights into galaxy evolution

In order to improve the fit to the optical counts, the recent multiwavelength source count model of Rowan-Robinson is improved in two ways. First, density evolution is incorporated to correspond to the mergers in hierarchical models of galaxy formation. Secondly, the evolution of dust opacity is taken into account. The luminosity and density evolution parameters and the characteristic opacity of the Local Universe are allowed to vary freely and the best overall fit to the B band is determined. This parameter set is then translated to other wavebands, showing significant improvement of goodness of fit in the optical, ultraviolet and near-infrared bands, whilst retaining the goodness of fit in the far-infrared and submillimetre bands of the original model. A significant fraction of the improvement of fit is shown to be due to the introduction of optical depth history. The mean value of AV in the Local Universe for the best-fitting model is 0.4. The goodness of fit to available star formation history data is not significantly altered, and the form of the evolution of the luminosity function is shown to be consistent with a semi-analytic, forward evolution model.