A Variant Stellar-to-nebular Dust Attenuation Ratio on Subgalactic and Galactic Scales

Lin, Zhoubin; Kong, Xu

doi:10.3847/1538-4357/ab5f0e

Cited by 9 publications

(20 citation statements)

References 122 publications

(268 reference statements)

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“…At the lowest density, log 10 Σ Hα 38.5, the stellar attenuation is stronger than the gas attenuation, mainly because of the small amount of dust in the gas as seen from the rapid decrease of E(B − V ) gas in the low-density end. The negative correlation of E(B − V ) star /E(B − V ) gas with Σ Hα has recently been discussed in depth in Lin & Kong (2020), based on an earlier sample of MaNGA. Our results show in addition that the correlation is essentially a result of the dichotomy of the intrinsic properties of the ionized gas regions, Hii regions and DIG regions, divided at Σ Hα ∼ 10 39 erg s −1 kpc −2 as suggested by Zhang et al (2017).…”

Section: Correlations Of Dust Attenuation With Regional/global Proper...mentioning

confidence: 95%

“…Similar to [Nii]/[Sii], the [Oiii]/[Oii] also shows no correlation with the stellar attenuation, but a strong correlation with the gas attenuation (see Figure 13). Both [Nii]/[Sii] and [Oiii]/[Oii] have been used as indicators of the ionization level of gas (Dopita et al 2013;Lin & Kong 2020). In the ionization model of spherical Hii regions from Dopita et al (2013), the line ratio of [Oiii]/[Oii] increases as the ionization parameter (q) increases, when the gas-phase metallicity diagnostics (e.g.…”

Section: Correlations Of Dust Attenuation With Regional/global Proper...mentioning

confidence: 99%

“…Recently, using data of MaNGA galaxies in Sloan Digital Sky Survey Data Release 15 (SDSS DR15; Aguado et al 2019) and MaNGA value-added catalog (VAC) of the Pipe3D pipeline (Sánchez et al 2018), Lin & Kong (2020) investigated the variations of f from sub-galactic to galactic scales. They found that E(B − V ) star and E(B − V ) gas have a stronger correlation for more active Hii regions, while f is found to have a moderate correlation with tracers of DIG regions.…”

Section: Introduction Dust Accounts Formentioning

confidence: 99%

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Estimating Dust Attenuation From Galactic Spectra. II. Stellar and Gas Attenuation in Star-forming and Diffuse Ionized Gas Regions in MaNGA

Niu

et al. 2021

ApJ

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We investigate the dust attenuation in both stellar populations and ionized gas in kiloparsec-scale regions in nearby galaxies using integral field spectroscopy data from MaNGA MPL-9. We identify star-forming (H ii) and diffuse ionized gas (DIG) regions from MaNGA data cubes. From the stacked spectrum of each region, we measure the stellar attenuation, E B − V star , using the technique developed by Li et al., as well as the gas attenuation, E B − V gas , from the Balmer decrement. We then examine the correlation of E B − V star , E B − V gas , E B − V gas − E B − V star , and E B − V star / E B − V gas with 16 regional/global properties, and for regions with different Hα surface brightnesses (ΣHα ). We find a stronger correlation between E B − V star and E B − V gas in regions of higher ΣHα . The luminosity-weighted age (t L ) is found to be the property that is the most strongly correlated with E B − V star , and consequently, with E B − V gas − E B − V star and E B − V star / E B − V gas . At fixed ΣHα , log 10 t L is linearly and negatively correlated with E B − V star / E B − V gas at all ages. Gas-phase metallicity and ionization level are important for the attenuation in the gas. Our results indicate that the ionizing source for DIG regions is likely distributed in the outskirts of galaxies, while for H ii regions, our results can be well explained by the two-component dust model of Charlot & Fall.

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Section: Correlations Of Dust Attenuation With Regional/global Proper...mentioning

confidence: 95%

Section: Correlations Of Dust Attenuation With Regional/global Proper...mentioning

confidence: 99%

Section: Introduction Dust Accounts Formentioning

confidence: 99%

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Estimating Dust Attenuation From Galactic Spectra. II. Stellar and Gas Attenuation in Star-forming and Diffuse Ionized Gas Regions in MaNGA

Niu

et al. 2021

ApJ

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“…In this work, we simply attribute non-AGN ionized gas to star-forming regions. However, such ionized gas also might have a nonnegligible contribution from DIG, which might be excited by mechanisms other than star formation, such as hot, low-mass evolved stars (Flores-Fajardo et al 2011;Zhang et al 2017) or shock (see Haffner et al 2009 for a review), and have a significant contribution to a sample of star-forming regions selected from the MaNGA survey (Lin & Kong 2020). DIG-dominated spaxels might not support the assumptions adopted in this work.…”

Section: Effect Of Diffuse Ionized Gasmentioning

confidence: 88%

“…The second argument allows us to use nebular attenuation derived from the Balmer decrement to trace the stellar attenuation. Previous works showed that the color excesses derived from emission lines and stellar continuum are correlated with each other in either galactic (e.g., Calzetti 1997) or subgalactic (e.g., Kreckel et al 2013;Lin & Kong 2020) star-forming systems. Therefore, one can use τ B to represent the relative reddening of of stellar continuum.…”

Section: Basic Ideamentioning

confidence: 99%

Dust Attenuation Curve for Local Subgalactic Star-forming Regions

Teklu

Lin

Kong

et al. 2020

ApJ

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We compile a sample of about 157,000 spaxels from the Mapping Nearby Galaxies at the Apache Point Observatory (MaNGA) survey to derive the average dust attenuation curve for subgalactic star-forming regions of local star-forming galaxies (SFGs) in the optical wavelength, following the method of Calzetti et al. We obtain a D n (4000)-independent average attenuation curve for spaxels with 1.1 ≤ D n (4000) < 1.3, which is similar to the one derived from either local starbursts or normal SFGs. We examine whether and how the shape of the average attenuation curve changes with several local and global physical properties. For spaxels with 1.2 ≤ D n (4000) < 1.3, we find no dependence on either local or global physical properties for the shape of the average attenuation curve. However, for spaxels with younger stellar population (1.1 ≤ D n (4000) < 1.2), shallower average attenuation curves are found for star-forming regions with smaller stellar mass surface density, smaller star formation rate surface density, or those residing in the outer region of galaxies. These results emphasize the risk of using one single attenuation curve to correct the dust reddening for all type of star-forming regions, especially for those with fairly young stellar population.

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Detailed study of a rare hyperluminous rotating disk in an Einstein ring 10 billion years ago

Liu,

Förster Schreiber,

Harrington

et al. 2024

Nat Astron

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Hyperluminous infrared galaxies (HyLIRGs) are the rarest and most extreme starbursts and found only in the distant Universe (z ≳ 1). They have intrinsic infrared (IR) luminosities LIR ≥ 1013 L⊙ and are commonly found to be major mergers. Recently, the Planck All-Sky Survey to Analyze Gravitationally-lensed Extreme Starbursts project (PASSAGES) searched ~104 deg2 of the sky and found ~20 HyLIRGs. We describe a detailed study of PJ0116-24, the brightest (μLIR ≈ 2.6 × 1014 L⊙, magnified with μ ≈ 17) Einstein-ring HyLIRG in the southern sky, at z = 2.125, with observations from the near-IR integral-field spectrograph VLT/ERIS and the submillimetre interferometer ALMA. We detected Hα, Hβ, [N ii] and [S ii] lines and obtained an extreme Balmer decrement (Hα/Hβ ≈ 8.73 ± 1.14). We modelled the molecular-gas and ionized-gas kinematics with CO(3–2) and Hα data at ~100–300 pc and (sub)kiloparsec delensed scales, respectively, finding consistent regular rotation. We found PJ0116-24 to be highly rotationally supported (vrot/σ0, mol. gas ≈ 9.4) with a richer gaseous substructure than other known HyLIRGs. Our results imply that PJ0116-24 is an intrinsically massive (Mbaryon ≈ 1011.3 M⊙) and rare starbursty disk (star-formation rate, SFR = 1,490 M⊙ yr−1) probably undergoing secular evolution. This indicates that the maximal SFR (≳1,000 M⊙ yr−1) predicted by simulations could occur during a galaxy’s secular evolution, away from major mergers.

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A Variant Stellar-to-nebular Dust Attenuation Ratio on Subgalactic and Galactic Scales

Cited by 9 publications

References 122 publications

Estimating Dust Attenuation From Galactic Spectra. II. Stellar and Gas Attenuation in Star-forming and Diffuse Ionized Gas Regions in MaNGA

Estimating Dust Attenuation From Galactic Spectra. II. Stellar and Gas Attenuation in Star-forming and Diffuse Ionized Gas Regions in MaNGA

Dust Attenuation Curve for Local Subgalactic Star-forming Regions

Detailed study of a rare hyperluminous rotating disk in an Einstein ring 10 billion years ago

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