Your search keyword '"Leung, Ho-Hin"' showing total 2 results

1. Chemical evolution of local post-starburst galaxies: implications for the mass–metallicity relation.

Author

Leung, Ho-Hin, Wild, Vivienne, Papathomas, Michail, Carnall, Adam, Zheng, Yirui, Boardman, Nicholas, Wang, Cara, and Johansson, Peter H

Subjects

*GALAXIES, *METAL recycling, *STELLAR evolution, *STARBURSTS, *GAUSSIAN processes, *RANDOM noise theory

Abstract

We use the stellar fossil record to constrain the stellar metallicity evolution and star-formation histories of the post-starburst (PSB) regions within 45 local PSB galaxies from the MaNGA survey. The direct measurement of the regions' stellar metallicity evolution is achieved by a new two-step metallicity model that allows for stellar metallicity to change at the peak of the starburst. We also employ a Gaussian process noise model that accounts for correlated errors introduced by the observational data reduction or inaccuracies in the models. We find that a majority of PSB regions (69 per cent at >1σ significance) increased in stellar metallicity during the recent starburst, with an average increase of 0.8 dex and a standard deviation of 0.4 dex. A much smaller fraction of PSBs are found to have remained constant (22 per cent) or declined in metallicity (9 per cent, average decrease 0.4 dex, standard deviation 0.3 dex). The pre-burst metallicities of the PSB galaxies are in good agreement with the mass–metallicity (MZ) relation of local star-forming galaxies. These results are consistent with hydrodynamic simulations, which suggest that mergers between gas-rich galaxies are the primary formation mechanism of local PSBs, and rapid metal recycling during the starburst outweighs the impact of dilution by any gas inflows. The final mass-weighted metallicities of the PSB galaxies are consistent with the MZ relation of local passive galaxies. Our results suggest that rapid quenching following a merger-driven starburst is entirely consistent with the observed gap between the stellar mass–metallicity relations of local star-forming and passive galaxies. [ABSTRACT FROM AUTHOR]

Published

2024

2. Galaxy mergers can rapidly shut down star formation.

Author

Ellison, Sara L, Wilkinson, Scott, Woo, Joanna, Leung, Ho-Hin, Wild, Vivienne, Bickley, Robert W, Patton, David R, Quai, Salvatore, and Gwyn, Stephen

Subjects

STAR formation, GALAXY mergers, STARBURSTS, SUPERMASSIVE black holes, GALACTIC evolution, MERGERS & acquisitions, GALAXIES

Abstract

Galaxy mergers trigger both star formation and accretion on to the central supermassive black hole. As a result of subsequent energetic feedback processes, it has long been proposed that star formation may be promptly extinguished in galaxy merger remnants. However, this prediction of widespread, rapid quenching in late stage mergers has been recently called into question with modern simulations and has never been tested observationally. Here we perform the first empirical assessment of the long-predicted end phase in the merger sequence. Based on a sample of ∼500 post-mergers identified from the Ultraviolet Near Infrared Optical Northern Survey (UNIONS), we show that the frequency of post-merger galaxies that have rapidly shutdown their star formation following a previous starburst is 30–60 times higher than expected from a control sample of non-merging galaxies. No such excess is found in a sample of close galaxy pairs, demonstrating that mergers can indeed lead to a rapid halt to star formation, but that this process only manifests after coalescence. [ABSTRACT FROM AUTHOR]

Published

2022