The roles of environment and interactions on the evolution of red and blue galaxies in the EAGLE simulation

The roles of environment and interactions on the evolution of red and blue galaxies in the EAGLE simulation

We study the evolution of the red and blue galaxies from $z=3$ to $z=0$ using the EAGLE simulation. The galaxies in the blue cloud and the red sequence are separated at each redshift using a scheme based on Otsu’s method. Our analysis shows that the two populations have small differences in the local density and the clustering strength until $z=2$, after which the red galaxies preferentially occupy the denser regions and exhibit a significantly stronger clustering than the blue galaxies. The large differences in the cold gas mass and the star formation rate (SFR) of the two populations before $z=2$ indicate that the dichotomy between the two populations may not arise due to the environment alone. The galaxy pairs at each redshift show a significantly higher SFR than the isolated control galaxies within pair separations $500$ kpc.We study the evolution of the red and blue galaxies from $z=3$ to $z=0$ using the EAGLE simulation. The galaxies in the blue cloud and the red sequence are separated at each redshift using a scheme based on Otsu’s method. Our analysis shows that the two populations have small differences in the local density and the clustering strength until $z=2$, after which the red galaxies preferentially occupy the denser regions and exhibit a significantly stronger clustering than the blue galaxies. The large differences in the cold gas mass and the star formation rate (SFR) of the two populations before $z=2$ indicate that the dichotomy between the two populations may not arise due to the environment alone. The galaxy pairs at each redshift show a significantly higher SFR than the isolated control galaxies within pair separations $500$ kpc.