Central Velocity Dispersion being the Primary Driver of Abundance Patterns in Quenched Galaxies
Abstract
The element abundances of galaxies provide crucial insights into their formation and evolution. Using high-resolution IFU data from the MaNGA survey, we analyze the central spectra (0-0.5 R e) of 1,185 quenched galaxies (z = 0.012-0.15) to study their element abundances and stellar populations. We employ the full-spectrum fitting code alf to derive stellar ages and element abundances from synthetic spectra and empirical libraries. Our key findings are: (1) Central velocity dispersion (σ*) is the most effective parameter correlating with (relative) element abundances, especially [Na/Fe], [Mg/Fe], [C/Fe], and [N/Fe], outperforming M and M/R e. (2) When binned by σ*, the relative abundances of Na, Mg, C, and N remain stable across different formation times (T form), suggesting these elements are primarily influenced by the burstiness of star formation (traced by σ*) rather than prolonged evolutionary processes. (3) Fe and Ca show little variation with σ*, indicating weaker sensitivity to σ*-driven processes. However, T form has a global influence on all elements, contributing to their overall chemical evolution, albeit secondary to σ* for most elements. These results support the primary role of σ* in shaping the abundance patterns, likely stemming from the connection between central massive black holes and possibly dark matter halos, which influences the burstiness of star formation histories.
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