Panchromatic Photometry of Low-redshift, Massive Galaxies Selected from SDSS Stripe 82

Li, Yang A.; Ho, Luis C.; Shangguan, J.; Zhuang, Ming-Yang; Li, R.

doi:10.3847/1538-4365/acd4b5

Cited by 3 publications

(17 citation statements)

References 149 publications

(215 reference statements)

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“…We make use of the local galaxies in the SDSS Stripe 82 region that are covered by the Herschel Stripe 82 Survey (HerS; Viero et al 2014) with the SPIRE instrument (Griffin et al 2010) on board Herschel (Pilbratt et al 2010). The parent sample comes from the catalog produced by Li et al (2023), which is defined by the redshift range of z = 0.01-0.11 and a stellar mass cut of M * 10 10 M e , using values from the GALEX-SDSS-WISE Legacy Catalog 2 (GSWLC-2; Salim et al 2018). The lower limit on redshift excludes very nearby galaxies, which can have unreliable distances based on redshift, the overall narrow redshift range ensures negligible cosmic evolution in global galaxy properties, and the stellar mass cut yields a sample with high completeness.…”

Section: Sample Definitionmentioning

confidence: 99%

“…While the primary galaxy must be a member of our parent sample and have M * 10 10 M e , the secondary galaxy is allowed to be less massive than this stellar mass limit in order to better explore the effect of minor mergers, although we do not consider galaxy pairs with stellar mass ratios of f 0.01 M < * to minimize confusion with bright galactic substructures. Stellar mass ratios are evaluated by taking into account the 3σ uncertainty of M * , which is ∼0.15 dex (Li et al 2023). The following analysis involves 174 merging galaxies and a control sample of 2244 isolated galaxies.…”

Section: Sample Definitionmentioning

confidence: 99%

“…CIGALE gives the Bayesian probability distribution for the model parameters. We consider flux upper limits in calculating the likelihoods of the SED models, and we use mock tests to correct the physical parameters for systematic biases that may arise from photometry of low signal-to-noise ratio (see details in Section 4.4 of Li et al 2023). We exclude a minority of galaxies that have reduced χ 2 > 10 in the SED fits, which typically stem from sources that are decomposed poorly by GALFITM in some near-infrared bands.…”

Section: Sample Definitionmentioning

confidence: 99%

“…Following Shangguan et al (2018), we add 0.23 dex to δ GDR to account for the empirical difference between dust-converted gas masses and direct gas observations. The total uncertainty of the gas masses, ∼0.45 dex, stems from the scatter of 0.15 dex in δ GDR propagated from the scatter of the stellar mass-metallicity relation and the typical uncertainty of 0.42 dex for M d (Li et al 2023), which principally relates to uncertainties of the dust temperature and absorption coefficient. Dust radiation is very sensitive to temperature; even a tiny change in temperature can induce a large variation in dust mass (Lv et al 2018).…”

Section: LImentioning

confidence: 99%

“…In this paper, we investigate the effect of tidal interactions on the star formation activity and gas content of galaxies, by comparing the SFR, M gas , and specific SFR (sSFR ≡ SFR/M * ) and SFE (SFE ≡ SFR/M gas ) of mergers with non-mergers, where both populations are drawn from a large sample of nearby galaxies selected from the Stripe 82 region (Annis et al 2014) of the Sloan Digital Sky Survey (SDSS; York et al 2000), whose panchromatic, far-ultraviolet (FUV) to farinfrared (FIR) spectral energy distribution (SED) and physical parameters have been analyzed uniformly in the companion work of Li et al (2023). Section 2 introduces the parent sample, the selection criteria for the merger subsample, as well as the derivation of the physical parameters studied in this work.…”

Section: Introductionmentioning

confidence: 99%

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The Subtle Effects of Mergers on Star Formation in Nearby Galaxies

Shangguan

2023

ApJ

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Interactions and mergers play an important role in regulating the physical properties of galaxies, such as their morphology, gas content, and star formation rate (SFR). Controversy exists as to the degree to which these events, even gas-rich major mergers, enhance star formation activity. We study merger pairs selected from a sample of massive (M * ≥ 1010 M ⊙), low-redshift (z = 0.01–0.11) galaxies located in the Stripe 82 region of the Sloan Digital Sky Survey, using stellar masses, SFRs, and total dust masses derived from a new set of uniformly measured panchromatic photometry and spectral energy distribution analysis. The dust masses, when converted to equivalent total atomic and molecular hydrogen, probe gas masses as low as ∼108.5 M ⊙. Our measurements delineate a bimodal distribution on the M gas–M * plane: the gas-rich, star-forming galaxies that trace the well-studied gas mass main sequence, and passive galaxies that occupy a distinct, gas-poor regime. These two populations, in turn, map into a bimodal distribution on the relation between SFR and gas mass surface density. Among low-redshift galaxies, galaxy mergers, including those that involve gas-rich and nearly equal-mass galaxies, exert a minimal impact on their SFR, specific SFR, or star formation efficiency. Starbursts are rare. The star formation efficiency of gas-rich, minor mergers even appears suppressed. This study stresses the multiple, complex factors that influence the evolution of the gas and its ability to form stars in mergers.

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Section: Sample Definitionmentioning

confidence: 99%

Section: Sample Definitionmentioning

confidence: 99%

Section: Sample Definitionmentioning

confidence: 99%

Section: LImentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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The Subtle Effects of Mergers on Star Formation in Nearby Galaxies

Shangguan

2023

ApJ

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The Structure Function of Mid-infrared Variability in Low-redshift Active Galactic Nuclei

Son,

Kim,

2023

ApJ

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Using the multi-epoch mid-infrared (MIR) photometry from the Wide-field Infrared Survey Explorer spanning a baseline of ∼10 yr, we extensively investigate the MIR variability of nearby active galactic nuclei (AGNs) at 0.15 < z < 0.4. We find that the ensemble structure function in the W1 band (3.4 μm) can be modeled with a broken power law. Type 1 AGNs tend to exhibit larger variability amplitudes than type 2 AGNs, possibly due to the extinction by the torus. The variability amplitude is inversely correlated with the AGN luminosity, consistent with a similar relation known in the optical. Meanwhile, the slope of the power law increases with AGN luminosity. This trend can be attributed to the fact that the inner radius of the torus is proportional to the AGN luminosity, as expected from the size−luminosity relation of the torus. Interestingly, low-luminosity type 2 AGNs, unlike low-luminosity type 1 AGNs, tend to exhibit smaller variability amplitude than do high-luminosity AGNs. We argue that either low-luminosity type 2 AGNs have distinctive central structures due to their low luminosity or their MIR brightness is contaminated by emission from the cold dust in the host galaxy. Our findings suggest that the AGN unification scheme may need to be revised. We find that the variability amplitude of dust-deficient AGNs is systematically larger than that of normal AGNs, supporting the notion that the hot and warm dust in dust-deficient AGNs may be destroyed and reformed according to the strength of the ultraviolet radiation from the accretion disk.

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On the Existence, Rareness, and Uniqueness of Quenched H i-rich Galaxies in the Local Universe

Li,

et al. 2024

ApJ

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Using data from ALFALFA, xGASS, H i-MaNGA, and the Sloan Digital Sky Survey (SDSS), we identify a sample of 47 “red but H i-rich” (RR) galaxies with near-UV (NUV) − r > 5 and unusually high H i-to-stellar mass ratios. We compare the optical properties and local environments between the RR galaxies and a control sample of “red and H i-normal” (RN) galaxies that are matched in stellar mass and color. The two samples are similar in the optical properties typical of massive red (quenched) galaxies in the local Universe. The RR sample tends to be associated with slightly lower-density environments and has lower clustering amplitudes and smaller neighbor counts at scales from several hundred kiloparsecs to a few megaparsecs. The results are consistent with the RR galaxies being preferentially located at the center of low-mass halos, with a median halo mass ∼1012 h −1 M ⊙ compared to ∼1012.5 h −1 M ⊙ for the RN sample. This result is confirmed by the SDSS group catalog, which reveals a central fraction of 89% for the RR sample, compared to ∼60% for the RN sample. If assumed to follow the H i size–mass relation of normal galaxies, the RR galaxies have an average H i-to-optical radius ratio of R HI/R 90 ∼ 4, four times the average ratio for the RN sample. We compare our RR sample with similar samples in previous studies, and quantify the population of RR galaxies using the SDSS complete sample. We conclude that the RR galaxies form a unique but rare population, accounting for only a small fraction of the massive quiescent galaxy population. We discuss the formation scenarios of the RR galaxies.

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Panchromatic Photometry of Low-redshift, Massive Galaxies Selected from SDSS Stripe 82

Cited by 3 publications

References 149 publications

The Subtle Effects of Mergers on Star Formation in Nearby Galaxies

The Subtle Effects of Mergers on Star Formation in Nearby Galaxies

The Structure Function of Mid-infrared Variability in Low-redshift Active Galactic Nuclei

On the Existence, Rareness, and Uniqueness of Quenched H i-rich Galaxies in the Local Universe

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