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Populations of high-luminosity density-bounded H II regions in spiral galaxies? Evidence and implications | | J. E. Beckman
; M. Rozas
; A. Zurita
; R. A. Watson
; J. H. Knapen
; | | Date: |
23 Mar 2000 | | Subject: | astro-ph | | Affiliation: | IAC Tenerife and CSIC), M. Rozas, A. Zurita, R. A. Watson (IAC), J. H. Knapen (Univ. of Hertfordshire and Isaac Newton Group of Telescopes | | Abstract: | (Abridged) We present evidence that the HII regions of high luminosity in disk galaxies may be density bounded, so that a significant fraction of the ionizing photons emitted by their exciting OB stars escape from the regions. The key piece of evidence is the presence, in the Halpha luminosity functions (LFs) of the populations of HII regions, of glitches, local sharp peaks at an apparently invariant luminosity, defined as the Stromgren luminosity (L_ Str), L_Halpha = L_Str = 10^38.6 (pm 10^0.1) erg/s (no other peaks are found in any of the LFs) accompanying a steepening of slope for L_Halpha> L_Str. This behavior is readily explicable via a physical model whose basic premises are: (a) the transition at L_Halpha = L_Str marks a change from essentially ionization bounding at low luminosities to density bounding at higher values, (b) for this to occur the law relating stellar mass in massive star-forming clouds to the mass of the placental cloud must be such that the ionizing photon flux produced within the cloud is a function which rises more steeply than the mass of the cloud. Supporting evidence for the hypothesis of this transition is presented. If confirmed, the density-bounding hypothesis would imply that the density-bounded regions were the main sources of the photons which ionize the diffuse gas in disk galaxies. We estimate that these regions emit sufficient Lyman continuum not only to ionize the diffuse medium, but to cause a typical spiral to emit significant ionizing flux into the intergalactic medium. The low scatter observed in L_Str, less than 0.1 mag rms in the still quite small sample measured to date, is an invitation to widen the data base, and to calibrate against primary standards, with the aim of obtaining a precise standard candle. | | Source: | arXiv, astro-ph/0003359 | | Services: | Forum | Review | PDF | Favorites | |
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