Fe II Diagnostic Tools for Quasars

Abstract

The enrichment of Fe, relative to alpha-elements such as O and Mg, represents a potential means to determine the age of quasars and probe the galaxy formation epoch. To explore how Fe2 emission in quasars is linked to physical conditions and abundance, we have constructed a 830-level Fe2 model atom and investigated through photoionization calculations how Fe2 emission strengths depend on non-abundance factors. We have split Fe2 emission into three major wavelength bands, Fe2 (UV), Fe2(Opt1), and Fe2(Opt2), and explore how the Fe2(UV)/Mg2, Fe2(UV)/Fe2(Opt1) and Fe2(UV)/Fe2(Opt2) emission ratios depend upon hydrogen density and ionizing flux in broad-line regions (BLR's) of quasars. Our calculations show that: 1) similar Fe2(UV)/Mg2 ratios can exist over a wide range of physical conditions; 2) the Fe2(UV)/Fe2(Opt1) and Fe2(UV)/Fe2(Opt2) ratios serve to constrain ionizing luminosity and hydrogen density; and 3) flux measurements of Fe2 bands and knowledge of ionizing flux provide tools to derive distances to BLR's in quasars. To derive all BLR physical parameters with uncertainties, comparisons of our model with observations of a large quasar sample at low redshift (z<1) is desirable. The STIS and NICMOS spectrographs aboard the Hubble Space Telescope (HST) offer the best means to provide such observations.

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