SDSS-IV MaNGA: Spatially Resolved Star Formation Main Sequence and LI(N)ER Sequence

• Published in: Astrophysical journal. Letters Vol. 851; no. 2; p. L24
• Main Authors: Hsieh, B. C., Lin, Lihwai, Lin, J. H., Pan, H. A., Hsu, C. H., Sánchez, S. F., Cano-Díaz, M., Zhang, K., Yan, R., Barrera-Ballesteros, J. K., Boquien, M., Riffel, R., Brownstein, J., Cruz-González, I., Hagen, A., Ibarra, H., Pan, K., Bizyaev, D., Oravetz, D., Simmons, A.
• Format: Journal Article
• Language: English
• Published: Austin The American Astronomical Society 20.12.2017; IOP Publishing
• Subjects: Density; Galaxies; galaxies: evolution; H alpha line; Space telescopes; Star & galaxy formation; Star formation; Star formation rate; Stars; Stellar evolution
• ISSN: 2041-8205; 2041-8213
• DOI: 10.3847/2041-8213/aa9d80

We present our study on the spatially resolved H and M* relation for 536 star-forming and 424 quiescent galaxies taken from the MaNGA survey. We show that the star formation rate surface density ( ), derived based on the H emissions, is strongly correlated with the M* surface density ( ) on kiloparsec scales for star-forming galaxies and can be directly connected to the global star-forming sequence. This suggests that the global main sequence may be a consequence of a more fundamental relation on small scales. On the other hand, our result suggests that ∼20% of quiescent galaxies in our sample still have star formation activities in the outer region with lower specific star formation rate (SSFR) than typical star-forming galaxies. Meanwhile, we also find a tight correlation between and for LI(N)ER regions, named the resolved "LI(N)ER" sequence, in quiescent galaxies, which is consistent with the scenario that LI(N)ER emissions are primarily powered by the hot, evolved stars as suggested in the literature.