The Impact of Cluster Mergers on Galaxy Properties (2506.04799v1)

Abstract: Being the most energetic events in the known universe, the impact of galaxy cluster mergers on the properties of the resident galaxies has yet to be well-understood. In this paper, we investigate the effects of merging environments on star formation in nearby clusters ($0.04<z<0.06$) from the SAMI Galaxy Survey - A168, A2399, A3380, and EDCC 0442 - which exhibit different dynamical activity. Using single-fiber spectroscopy from the SAMI Cluster Redshift Survey (SAMI-CRS) and Sloan Digital Sky Survey (SDSS), we trace star formation (SF) activity across the cluster sample by identifying the star-forming galaxy (SFG) population based on spectral features. We find a mild enhancement in the star-forming galaxy fraction $f_{SFG}$ in merging clusters, although not statistically significant. The spatial and projected phase-space distributions show that SFGs in merging clusters are well-mixed with the passive population, while galaxy populations exhibit a clear segregation in the relaxed clusters. Analysis of equivalent width of $\rm H\alpha$ line (EW($\rm H\alpha$)), as a tracer of recent SF activity, does not reveal strong evidence of triggered star formation activity as a function of dynamical state for both the global cluster environment and subsamples of galaxies selected near possible merger features. This suggests that the increase in $f_{SFG}$ is due to the mixing of galaxies in dynamically complex, young merging systems that are still forming, unlike their older, relaxed counterparts that have had longer to quench.