The oxygen distribution in NGC 3359 or a disk galaxy in the early phase of bar formation

Abstract

view Abstract Citations (83) References (62) Co-Reads Similar Papers Volume Content Graphics Metrics Export Citation NASA/ADS The Oxygen Distribution in NGC 3359 or a Disk Galaxy in the Early Phase of Bar Formation Martin, Pierre ; Roy, Jean-Rene Abstract Monochromatic imaging in the nebular lines Hα, Hβ, [O III] λ5007, and [N II] λ6584 has been performed on 77 H II regions from 0.13R_eff_ to 2.04R_eff_ in the barred spiral galaxy NGC 3359. The galaxy shows several bright H II regions along its bar; according to numerical simulations of barred galaxies, this morphology suggests that the barred structure was formed recently (within 1 Gyr). The O/H abundance gradient across the disk of NGC 3359 was derived from the abundance indicators [O III]/Hβ and [N II]/[O III] calibrated by Edmunds & Pagel (1984). A break in the slope of the O/H gradient is clearly seen near the corotation radius (~4 kpc). The inner O/H gradient is steep [{DELTA} log (O/H)/{DELTA}R = -0.0701 +/- 0.010 dex kpc^-1^] and the O/H scatter is moderate (+/-0.10 dex); outside the corotation, the gradient appears flat [{DELTA} log (O,/H)/ {DELTA}R = 0.006 +/- 0.018 dex kpc^-1^] and the spread in O/H is significantly larger (+/-0.2 dex) than in the inner parts. This result is in agreement with recent simulations of barred spiral galaxies: star formation inside the corotation radius is enhanced by large amounts of gas driven by radial flows induced by the bar and contributes to maintain the initial O/H gradient; in the outer parts, strong gas mixing induced by flows directed outward and along the spiral arms produces a flattened gradient (e.g., Friedli, Benz, & Kennicutt 1994). Based on previous H I kinematics data on NGC 3359 and results of numerical models of barred galaxies, we show that flows along the spiral arms have had enough time to wiped out the O/H gradient outside the corotation as far as at least 9.5 kpc. However, the presence of large azimuthal abundance fluctuations in the outer disk indicates that the age of the bar is ~4 x 10^8^ yr. The steep inner O/H gradient is also discussed, and we suggest that the present star formation inside the corotation minimizes the dilution of the chemical composition by gas flows. Finally, a brief analysis of the global O/H gradients in disk galaxies with bars showing different star-forming activity is performed. Publication: The Astrophysical Journal Pub Date: May 1995 DOI: 10.1086/175682 Bibcode: 1995ApJ...445..161M Keywords: Abundance; Barred Galaxies; Chemical Evolution; Galactic Structure; H Ii Regions; Line Spectra; Oxygen; Star Formation; Corotation; H Lines; Image Analysis; Mathematical Models; Nitrogen; Spectrum Analysis; Stellar Spectrophotometry; Astronomy; GALAXIES: INDIVIDUAL NGC NUMBER: NGC 3359; GALAXIES: ISM; GALAXIES: KINEMATICS AND DYNAMICS; GALAXIES: SPIRAL; GALAXIES: STRUCTURE; ISM: H II REGIONS full text sources ADS | data products SIMBAD (86) NED (10)