Anisotropic galactic outflows and enrichment of the intergalactic medium. I. Monte Carlo simulations

We have developed an analytical model to describe the evolution of anisotropic galactic outflows. With it we investigate the impact of varying opening angle on galaxy formation and the evolution of the intergalactic medium. We have implemented this model in a Monte Carlo algorithm to simulate galaxy formation and outflows in a cosmological context. Using this algorithm, we have simulated the evolution of a comoving volume of size ( 12 h(-1) Mpc)(3) in the Lambda CDM universe. Starting from a Gaussian density field at redshift z = 24, we follow the formation of similar to 20,000 galaxies and simulate the galactic outflows produced by these galaxies. When these outflows collide with density peaks, ram pressure stripping of the gas inside the peaks may result. This occurs in around half the cases and prevents the formation of galaxies. Anisotropic outflows follow the path of least resistance and thus travel preferentially into low- density regions, away from cosmological structures ( filaments and pancakes) in which galaxies form. As a result, the number of collisions is reduced, leading to the formation of a larger number of galaxies. Anisotropic outflows can significantly enrich low- density systems with metals. Conversely, the cross pollution inmetals of objects located in a common cosmological structure, like a filament, is significantly reduced. Highly anisotropic outflows can travel across cosmological voids and deposit metals in other, unrelated cosmological structures.