Mergers and Galaxy Evolution (Sept94 Ringberg Workshop)
Abstract
Galaxy merging is the late time manifestation of the galaxy formation process and likely significantly effects z<1 galaxies. A ``maximum reasonable rate'' model for merging finds a 2 mag K band increase in the luminosities of dwarf galaxies so that they contribute significantly to the faint counts, with spirals and ellipticals being far less affected. The median K and I redshifts stabilize (and even decrease slightly) at z0.6 beyond I=21 or K=19. The B redshifts continue to rise (although strongly dependent on the UV spectral evolution). Such rapid merging predicts that at z=1 the characteristic galaxy mass is reduced to 30\% of the z=0 value. To rule out this model requires good sampling beyond z=1. A theoretical complication for even a minimal merger rate, which reduces z=1 masses to 2/3 of current epoch values, is that infall of a single satellite having 10\% of a disk's mass may destroy thin disks. Using completely self-consistent n-body simulations, we show that the primary response of a disk to ``cosmological'' satellites up to 20\% of the disk mass is to tilt the disk with a temporary warping.
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