J-PLUS: 2-D analysis of the stellar population in NGC 5473 and NGC 5485

TL;DR

This study demonstrates that multi-filter photometric surveys like J-PLUS can effectively map the spatial distribution of stellar populations in nearby galaxies, providing results comparable to integral field spectroscopy with some methodological differences.

Contribution

The paper introduces a novel approach combining J-PLUS multi-filter data with analysis techniques to derive detailed 2D stellar population maps, validating its effectiveness against IFU data.

Findings

J-PLUS data yields stellar population gradients consistent with IFU results.

Different analysis methods cause systematic differences in derived properties.

Luminosity- and mass-weighted profiles are similar, indicating small contributions from young stars.

Abstract

The spatial variations of stellar population properties within a galaxy are intimately related to their formation process. Therefore, spatially resolved studies of galaxies are essential to uncover their formation and assembly. The Javalambre Photometric Local Universe Survey (J-PLUS) is a dedicated multi-filter designed to observed ~8500 deg2 using twelve narrow-, intermediate- and broad-band filters in the optical range. In this study, we test the potential of the multi-filter observation carried out with J-PLUS to investigate the properties of spatially-resolved nearby galaxies. We present detailed 2D maps of stellar population properties (age, metallicity, extinction, and stellar mass surface density) for two early-type galaxies observed in both, J-PLUS and CALIFA surveys: NGC 5473 and NGC 5485. Radial structures are also compared and luminosity- and mass-weighted profiles are derived. We use MUFFIT to process the J-PLUS observations, and two different techniques (STARLIGHT and STECKMAP) to analyze IFU CALIFA data. We demonstrate that this novel technique delivers radial stellar population gradients in good agreement with the IFU technique CALIFA/STECKMAP although comparison of the absolute values reveals the existence of intrinsic systematic differences. Radial stellar population gradients differ when CALIFA/STARLIGHT methodology is used. Age and metallicity radial profiles derived from J-PLUS/MUFFIT are very similar when luminosity- or mass-weighted properties are used, suggesting that the contribution of a younger component is small. Comparison between the three methodologies reveals some discrepancies suggesting that the specific characteristics of each method causes important differences. We conclude that the ages, metallicities and extinction derived for individual galaxies not only depend on the chosen models but also depend on the method used.