Spatially resolved star formation and dust attenuation in Mrk 848: Comparison of the integral field spectra and the UV-to-IR SED

We investigate the star formation history and the dust attenuation in the galaxy merger Mrk 848. Thanks to the multiwavelength photometry from the ultraviolet (UV) to the infrared (IR), and MaNGA’s integral field spectroscopy, we are able to study this merger in a detailed way. We divide the whole m...

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Bibliographic Details
Published in:Astronomy and astrophysics (Berlin) 2018-05, Vol.613, p.A13
Main Authors: Yuan, Fang-Ting, Argudo-Fernández, María, Shen, Shiyin, Hao, Lei, Jiang, Chunyan, Yin, Jun, Boquien, Médéric, Lin, Lihwai
Format: Article
Language:English
Subjects:
Astronomical models
Attenuation
Broadband
Cosmic dust
Dust
extinction
Galaxies
galaxies: evolution
galaxies: interactions
Inflow
Infrared photometry
Infrared spectroscopy
Integral field spectroscopy
Photometry
Spectra
Spectral energy distribution
Spectrum analysis
Star & galaxy formation
Star formation
Stellar populations
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Summary:We investigate the star formation history and the dust attenuation in the galaxy merger Mrk 848. Thanks to the multiwavelength photometry from the ultraviolet (UV) to the infrared (IR), and MaNGA’s integral field spectroscopy, we are able to study this merger in a detailed way. We divide the whole merger into the core and tail regions, and fit both the optical spectrum and the multi-band spectral energy distribution (SED) to models to obtain the star formation properties for each region respectively. We find that the color excess of stars in the galaxy E(B-V)sSED $E(B-V)_s^{\textrm{SED}}$ E(B−V)sSED measured with the multi-band SED fitting is consistent with that estimated both from the infrared excess (the ratio of IR to UV flux) and from the slope of the UV continuum. Furthermore, the reliability of the E(B-V)sSED $E(B-V)_s^{\textrm{SED}}$ E(B−V)sSED is examined with a set of mock SEDs, showing that the dust attenuation of the stars can be well constrained by the UV-to-IR broadband SED fitting. The dust attenuation obtained from optical continuum E(B-V)sspec $E(B-V)_s^{\textrm{spec}}$ E(B−V)sspec is only about half of E(B-V)sSED $E(B-V)_s^{\textrm{SED}}$ E(B−V)sSED . The ratio of the E(B-V)sspec $E(B-V)_s^{\textrm{spec}}$ E(B−V)sspec to the E(B-V)g $E(B-V)_g$ E(B−V)g obtained from the Balmer decrement is consistent with the local value (around 0.5). The difference between the results from the UV-to-IR data and the optical data is consistent with the picture that younger stellar populations are attenuated by an extra dust component from the birth clouds compared to older stellar populations which are only attenuated by the diffuse dust. Both with the UV-to-IR SED fitting and the spectral fitting, we find that there is a starburst younger than 100 Myr in one of the two core regions, consistent with the scenario that the interaction-induced gas inflow can enhance the star formation in the center of galaxies.
ISSN:0004-6361
1432-0746
DOI:10.1051/0004-6361/201731865