The Recent Star Formation in NGC 6822: an Ultraviolet Study

Boryana V.Efremova; Luciana Bianchi; David A.Thilker; James D.Neill,; Denis Burgarella; Ted K.Wyder; Barry F.Madore; Soo-Chang Rey; Tom A.Barlow,; Tim Conrow; Karl Forster; Peter G.Friedman; D. Christopher Martin; Patrick; Morrissey; Susan G.Neff; David Schiminovich; Mark Seibert; Todd Small

arXiv:1101.6051·astro-ph.GA·May 27, 2015

The Recent Star Formation in NGC 6822: an Ultraviolet Study

Boryana V.Efremova, Luciana Bianchi, David A.Thilker, James D.Neill,, Denis Burgarella, Ted K.Wyder, Barry F.Madore, Soo-Chang Rey, Tom A.Barlow,, Tim Conrow, Karl Forster, Peter G.Friedman, D. Christopher Martin, Patrick, Morrissey, Susan G.Neff, David Schiminovich

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TL;DR

This study uses ultraviolet and H-alpha imaging to analyze star formation history, rates, and properties of star-forming regions in the low-metallicity galaxy NGC 6822 over the past few hundred million years.

Contribution

It provides a detailed characterization of star-forming regions, including ages, masses, and extinction, using UV and H-alpha data, which is novel for this galaxy.

Findings

01

77 star-forming regions identified within 1.7 kpc of galaxy center.

02

Average star formation rate over past 100 Myr is 0.014 Msun/yr.

03

Recent star formation rate is approximately 0.008 Msun/yr, consistent with H-alpha estimates.

Abstract

We characterize the star formation in the low-metallicity galaxy NGC 6822 over the past few hundred million years, using GALEX far-UV (FUV, 1344-1786 A) and near-UV (NUV, 1771-2831 A) imaging, and ground-based Ha imaging. From GALEX FUV image, we define 77 star-forming (SF) regions with area >860 pc^2, and surface brightness <=26.8 mag(AB)arcsec^-2, within 0.2deg (1.7kpc) of the center of the galaxy. We estimate the extinction by interstellar dust in each SF region from resolved photometry of the hot stars it contains: E(B-V) ranges from the minimum foreground value of 0.22mag up to 0.66+-0.21mag. The integrated FUV and NUV photometry, compared with stellar population models, yields ages of the SF complexes up to a few hundred Myr, and masses from 2x10^2 Msun to 1.5x10^6 Msun. The derived ages and masses strongly depend on the assumed type of interstellar selective extinction, which we…

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