Wealth transactions are central to economic activity, and their particularities shape macroeconomic outcomes. We propose an agent-based model to investigate how homophily influences economic inequality. The model simulates wealth exchanges in a dynamic network composed of two groups, A and B, differentiated by a homophily parameter, which increases intragroup connections within A. Economic interactions alternate between conservative wealth exchanges and connection rewiring, both influenced by agents' wealth and. We examine economic and network dynamics under varying levels of social protection f, which favor poorer agents in transactions. At low f, results reveal high inequality and link concentration, with impacting only transient dynamics. At high f, homophily becomes an economic advantage, as increasing directs wealth flow to group A. However, since this flow benefits the wealthiest agents, it simultaneously exacerbates internal inequality within the group. These findings show that homophily is a significant driver of inequality, directing wealth towards the homophilous group and worsening internal disparities.
Kohlrausch et al. (Mon,) studied this question.