Survey Requirements for Accurate and Precise Photometric Redshifts for Type Ia Supernovae

Abstract

In this paper we advance the simple analytic photometric redshift estimator for Type Ia supernovae (SNe Ia) proposed by Wang (2007), and use it to study simulated SN Ia data. We find that better than 0.5% accuracy in zphot (with RMS[(zphot-zspec)/(1+zspec)]<0.005) is possible for SNe Ia with well sampled lightcurves in three observed passbands (riz) with a signal-to-noise ratio of 25 at peak brightness, if the extinction by dust is negligible. The corresponding bias in zphot (the mean of (zphot-zspec)) is 5.4× 10-4. If dust extinction is taken into consideration in the riz observer-frame lightcurves, the accuracy in zphot deteriorates to 4.4%, with a bias in zphot of 8.0× 10-3. Adding the g band lightcurve improves the accuracy in zphot to 2.5%, and reduces the bias in zphot to -1.5× 10-3. Our results have significant implications for the design of future photometric surveys of SNe Ia from both ground and space telescopes. Accurate and precise photometric redshifts boost the cosmological utility of such surveys.