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Hauptverfasser: Iglesias-Navarro, Patricia, Huertas-Company, Marc, Pérez-González, Pablo, Knapen, Johan H., Hahn, ChangHoon, Koekemoer, Anton M., Finkelstein, Steven L., Villanueva, Natalia, Ramos, Andrés Asensio
Format: Preprint
Veröffentlicht: 2025
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Online-Zugang:https://arxiv.org/abs/2506.04336
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author Iglesias-Navarro, Patricia
Huertas-Company, Marc
Pérez-González, Pablo
Knapen, Johan H.
Hahn, ChangHoon
Koekemoer, Anton M.
Finkelstein, Steven L.
Villanueva, Natalia
Ramos, Andrés Asensio
author_facet Iglesias-Navarro, Patricia
Huertas-Company, Marc
Pérez-González, Pablo
Knapen, Johan H.
Hahn, ChangHoon
Koekemoer, Anton M.
Finkelstein, Steven L.
Villanueva, Natalia
Ramos, Andrés Asensio
contents We present an efficient Bayesian SED-fitting framework tailored to multiwavelength pixel photometry from the JWST Advanced Deep Extragalactic Survey (JADES). Our method employs simulation-based inference to enable rapid posterior sampling across galaxy pixels, leveraging the unprecedented spatial resolution, wavelength coverage, and depth provided by the survey. It is trained on synthetic photometry generated from MILES stellar population models, incorporating both parametric and non-parametric SFHs, realistic noise, and JADES-like filter sensitivity thresholds. We validate this amortised inference approach on mock datasets, achieving robust and well-calibrated posterior distributions, with an $R^2$ score of 0.99 for stellar mass. Applying our pipeline to real observations, we derive spatially resolved maps of stellar population properties down to $\mathrm{S/N}_{\rm{pixel}}=5$ (averaged over F277W, F356W, F444W) for 1083 JADES galaxies and ~2 million pixels with spectroscopic redshifts. These maps enable the identification of dusty or starburst regions and offer insights into mass growth and the structural assembly. We assess the outshining phenomenon by comparing pixel-based and integrated stellar mass estimates, finding limited impact only in low-mass galaxies ($<10^8M_{\odot}$) but systematic differences of ~0.20 dex linked to SFH priors. With an average posterior sampling speed of $10^{-4}$ seconds per pixel and a total inference time of ~1 CPU-day for the full dataset, our model offers a scalable solution for extracting high-fidelity stellar population properties from HST+JWST datasets, opening the way for statistical studies at sub-galactic scales.
format Preprint
id arxiv_https___arxiv_org_abs_2506_04336
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Simulation-based inference of galaxy properties from JWST pixels
Iglesias-Navarro, Patricia
Huertas-Company, Marc
Pérez-González, Pablo
Knapen, Johan H.
Hahn, ChangHoon
Koekemoer, Anton M.
Finkelstein, Steven L.
Villanueva, Natalia
Ramos, Andrés Asensio
Astrophysics of Galaxies
We present an efficient Bayesian SED-fitting framework tailored to multiwavelength pixel photometry from the JWST Advanced Deep Extragalactic Survey (JADES). Our method employs simulation-based inference to enable rapid posterior sampling across galaxy pixels, leveraging the unprecedented spatial resolution, wavelength coverage, and depth provided by the survey. It is trained on synthetic photometry generated from MILES stellar population models, incorporating both parametric and non-parametric SFHs, realistic noise, and JADES-like filter sensitivity thresholds. We validate this amortised inference approach on mock datasets, achieving robust and well-calibrated posterior distributions, with an $R^2$ score of 0.99 for stellar mass. Applying our pipeline to real observations, we derive spatially resolved maps of stellar population properties down to $\mathrm{S/N}_{\rm{pixel}}=5$ (averaged over F277W, F356W, F444W) for 1083 JADES galaxies and ~2 million pixels with spectroscopic redshifts. These maps enable the identification of dusty or starburst regions and offer insights into mass growth and the structural assembly. We assess the outshining phenomenon by comparing pixel-based and integrated stellar mass estimates, finding limited impact only in low-mass galaxies ($<10^8M_{\odot}$) but systematic differences of ~0.20 dex linked to SFH priors. With an average posterior sampling speed of $10^{-4}$ seconds per pixel and a total inference time of ~1 CPU-day for the full dataset, our model offers a scalable solution for extracting high-fidelity stellar population properties from HST+JWST datasets, opening the way for statistical studies at sub-galactic scales.
title Simulation-based inference of galaxy properties from JWST pixels
topic Astrophysics of Galaxies
url https://arxiv.org/abs/2506.04336