10973(  1) - 04/03/06 11:17  - [  1]

                  HUBBLE SPACE TELESCOPE OBSERVING PROGRAM 10973

Version: 1    Check-in Time: 03-Apr-2006 15:17:14

Title
Using Archival Data to Improve Atomic Data and Address  the Nebular Iron Problem
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Type             Cycle     Parallel Pointing Tolerance
AR               15        <none>
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Investigators
                                                                                     Contact?
    PI: Dr. Robert H. Rubin               NASA Ames Research Center
   CoI: Dr. Monica Rodriguez              Instituto Nacional de Astrofisica, Optica     N
                                          y Elecronica
   CoI: Dr. Charlotte Fischer             National Institute of Standards and           N
                                          Technology

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Abstract

Ever since the first detection of an [Fe IV] line in an H II region (in the Orion
Nebula about 10 years ago), it has been recognized that there is a serious problem
with the iron abundance derived from the observations. The initial detection was
made with HST/GHRS of the UV line at 2836.57 A, which is expected to be the
brightest [Fe IV] line under all nebular conditions. The measurement of the flux is
not in question. However when the gas-phase iron abundance is inferred using
photoionization models, it is found to be much smaller than those derived from lines
of other iron ions. This dilemma, which has acquired the name "[Fe IV] problem",
persists even with the measurement of a few more [Fe IV] lines that also include
ones from a few planetary nebulae (PNs) and galaxies. With our best modeling
efforts, the discrepancy is smaller but still goes up to a factor of ~4. Under a
program to enlarge the very meager dataset for [Fe IV], we found several PNs in the
IUE archives with a possible 2836.57 A line blended with an O III line 0.57 A
redward. We propose to use archival HST spectra of the extremely rich emission line
sources RR Tel and eta Car to (1) test new state-of-the-art calculations of
transition probabilities (A-values) for the pertinent lines of [Fe IV] and O III;
(2) derive the ionic iron abundances for these objects; (3) use the results of step
1 to deblend the IUE emission feature in ~25 PNs. We are confident we will enlarge
the slim existing set of [Fe IV] emission lines. This is a crucial step in the hope
to resolve the [Fe IV] problem. The new quantum mechanical A-value calculations will
provide a legacy for future astrophysical spectroscopic applications.
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