# SDSS-IV MaNGA: Effects of Morphology in the global and local Star   Formation Main Sequences

**Authors:** M. Cano-D\'iaz, V. \'Avila-Reese, S.F. S\'anchez, H. M., Hern\'andez-Toledo, A. Rodr\'iguez-Puebla, M. Boquien, H. Ibarra-Medel

arXiv: 1907.04386 · 2019-07-17

## TL;DR

This study analyzes how galaxy morphology influences the global and local star formation rates and their correlations with stellar mass, revealing that morphology affects star formation activity and its decline across different galaxy types.

## Contribution

It demonstrates the universal nature of the star-forming main sequence at local and global scales and explores the impact of morphology on star formation activity and its spatial distribution.

## Key findings

- Global and local SFMS are similar in nature.
- Retired galaxies/areas are significantly offset from SFMS.
- Morphology influences star formation activity and its decline.

## Abstract

We study the global star-formation rate (SFR) vs. stellar mass (M$_*$) correlation, and the spatially-resolved SFR surface density ($\Sigma_{SFR}$) vs. stellar mass surface density (\Sm) correlation, in a sample of $\sim2,000$ galaxies from the MaNGA MPL-5 survey. We classify galaxies and spatially-resolved areas into star-forming and retired according to their ionization processes. We confirm the existence of a Star-Forming Main Sequence (SFMS) for galaxies and spatially-resolved areas, and show that they have the same nature, with the global as a consequence of the local one. The latter presents a bend below a limit \Sm value, $\approx 3\times 10^7$ M$_\odot$kpc$^{-2}$, which is not physical. Using only star-forming areas (SFAs) above this limit, a slope and a scatter of $\approx1$ and $\approx0.27$ dex are determined. The retired galaxies/areas strongly segregate from their respective SFMS's, by $\sim -1.5$ dex on average. We explore how the global/local SFMS's depend on galaxy morphology, finding that for star-forming galaxies and SFAs, there is a trend to lower values of star-formation activity with earlier morphological types, which is more pronounced for the local SFMS. The morphology not only affects the global SFR due to the diminish of SFAs with earlier types, but also affects the local SF process. Our results suggest that the local SF at all radii is established by some universal mechanism partially modulated by morphology. Morphology seems to be connected to the slow aging and sharp decline of the SF process, and on its own it may depend on other properties as the environment.

## Full text

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## Figures

48 figures with captions in the complete paper: https://tomesphere.com/paper/1907.04386/full.md

## References

153 references — full list in the complete paper: https://tomesphere.com/paper/1907.04386/full.md

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Source: https://tomesphere.com/paper/1907.04386