A Self-consistent Method for Estimating Photometric Redshifts
Abstract
A new method is developed for estimating photometric redshifts, using realistic template SEDs, extending over four decades in wavelength (i.e from 0.05 to 1 mm). The SEDs are constructed for four different spectral types of galaxies (elliptical, spiral, irregular and starburst) and satisfy the following characteristics: a). they are optimised to produce the observed colours of galaxies at ; b). incorporate the chemo-photometric spectral evolution of galaxies of different types, in agreement with observations; c). allow treatment of dust contribution and its evolution with redshift, consistent with the spectral evolution model; d). include absorption and re-emission of radiation by dust and hence, realistic estimates of the far-infrared radiation; e). include correction for inter-galactic absorption by Lyman continuum and Lyman forest. Using these template SEDs, the photometric redshifts are estimated to an accuracy of . The degeneracy in the method and hence, the redshifts and spectral types, are explored via Monte Carlo simulations. The consistency of the technique is demonstrated by applying it on a UV selected sample of HDF galaxies and comparing the statistical results with those from other independent studies.
Cite
@article{arxiv.astro-ph/9907210,
title = {A Self-consistent Method for Estimating Photometric Redshifts},
author = {B. Mobasher and P. Mazzei},
journal= {arXiv preprint arXiv:astro-ph/9907210},
year = {2007}
}
Comments
6 pages, 4 postscript figures- To appear in the proceedings of the Workshop on Photometric Redshifts and High Redshift Galaxies, edited by Ray Weymann, Lisa Storrie-Lombardi, Marcin Sawicki and Robert Brunner (Astronomical Society of the Pacific).