# Assessing the photometric redshift precision of the S-PLUS survey: the   Stripe-82 as a test-case

**Authors:** A. Molino, M. V. Costa-Duarte, L. Sampedro, F. R. Herpich, L. Sodr\'e, Jr., C. Mendes de Oliveira, W. Schoenell, C. E. Barbosa, C. Queiroz, E. V. R., Lima, L. Azanha, N. Mu\~noz-Elgueta, T. Ribeiro, A. Kanaan, J. A., Hernandez-Jimenez, A. Cortesi, S. Akras, R. Lopes de Oliveira, S., Torres-Flores, C. Lima-Dias, J. L. Nilo Castellon, G. Damke, A., Alvarez-Candal, Y. Jim\'enez-Teja, P. Coelho, E. Pereira, A. D., Montero-Dorta, N. Ben\'itez, T. S. Gon\c{c}alves, L. Santana-Silva, S. V., Werner, L. A. Almeida, P. A. A. Lopes, A. L. Chies-Santos, E. Telles, Thom de, Souza, R. C., D. R. Gon\c{c}alves, R. S. de Souza, M. Makler, V. M. Placco,, L. M. I. Nakazono, R. K. Saito, R. A. Overzier, L. R. Abramo

arXiv: 1907.06315 · 2020-06-17

## TL;DR

This paper evaluates the photometric redshift accuracy of the S-PLUS survey using Stripe-82 data, demonstrating high precision, low outlier rates, and identifying a redshift window with enhanced measurement accuracy for large galaxy samples.

## Contribution

It introduces a new SED template library and assesses photometric redshift performance with a detailed analysis, including a specific redshift window with doubled precision.

## Key findings

- Photometric redshift precision of <0.8% for r<17 galaxies
- Catastrophic outliers below 1% across the sample
- Identification of a redshift window (0.26<z<0.32) with doubled accuracy

## Abstract

In this paper we present a thorough discussion about the photometric redshift (photo-z) performance of the Southern Photometric Local Universe Survey (S-PLUS). This survey combines a 7 narrow + 5 broad passband filter system, with a typical photometric-depth of r$\sim$21 AB. For this exercise, we utilize the Data Release 1 (DR1), corresponding to 336 deg$^{2}$ from the Stripe-82 region. We rely on the \texttt{BPZ2} code to compute our estimates, using a new library of SED models, which includes additional templates for quiescent galaxies. When compared to a spectroscopic redshift control sample of $\sim$100k galaxies, we find a precision of $\sigma_{z}<$0.8\%, $<$2.0\% or $<$3.0\% for galaxies with magnitudes r$<$17, $<$19 and $<$21, respectively. A precision of 0.6\% is attained for galaxies with the highest \texttt{Odds} values. These estimates have a negligible bias and a fraction of catastrophic outliers inferior to 1\%. We identify a redshift window (i.e., 0.26$<z<$0.32) where our estimates double their precision, due to the simultaneous detection of two emission-lines in two distinct narrow-bands; representing a window opportunity to conduct statistical studies such as luminosity functions. We forecast a total of $\sim$2M, $\sim$16M and $\sim$32M galaxies in the S-PLUS survey with a photo-z precision of $\sigma_{z}<$1.0\%, $<$2.0\% and $<$2.5\% after observing 8000 $deg^{2}$. We also derive redshift Probability Density Functions, proving their reliability encoding redshift uncertainties and their potential recovering the $n(z)$ of galaxies at $z<0.4$, with an unprecedented precision for a photometric survey in the southern hemisphere.

## Full text

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## Figures

27 figures with captions in the complete paper: https://tomesphere.com/paper/1907.06315/full.md

## References

153 references — full list in the complete paper: https://tomesphere.com/paper/1907.06315/full.md

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Source: https://tomesphere.com/paper/1907.06315