The CAVITY project. The spatially resolved SFR of galaxies in voids

Ana M. Conrado; Rub\'en Garc\'ia-Benito; Rosa M. Gonz\'alez Delgado; Bahar Bidaran; H\'el\`ene M. Courtois; Salvador Duarte Puertas; Daniel Espada; Andoni Jim\'enez; Ignacio del Moral-Castro; Isabel P\'erez; Tom\'as Ruiz-Lara; Laura S\'anchez-Menguiano; Gloria Torres-R\'ios; Simon Verley; Mar\'ia Argudo-Fern\'andez; Simon B. De Daniloff; Estrella Florido; Yllari K. Gonz\'alez-Koda; Alejandra Z. Lugo-Aranda; Javier Rom\'an; Smitha Subramanian; Pedro Villalba-Gonz\'alez; Manuel Alc\'azar-Laynez; M\'onica Hern\'andez-S\'anchez; M\'onica Rodr\'iguez Mart\'inez; Paulo V\'asquez-Bustos; and Martin Blazek

arXiv:2603.28855·astro-ph.GA·May 20, 2026

The CAVITY project. The spatially resolved SFR of galaxies in voids

Ana M. Conrado, Rub\'en Garc\'ia-Benito, Rosa M. Gonz\'alez Delgado, Bahar Bidaran, H\'el\`ene M. Courtois, Salvador Duarte Puertas, Daniel Espada, Andoni Jim\'enez, Ignacio del Moral-Castro, Isabel P\'erez, Tom\'as Ruiz-Lara, Laura S\'anchez-Menguiano, Gloria Torres-R\'ios

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TL;DR

This study investigates how the void environment influences star formation in galaxies by spatially resolving SFR using integral field spectroscopy, comparing void galaxies with those in denser regions.

Contribution

It provides the first spatially-resolved analysis of SFR in void galaxies, revealing environmental effects on galaxy evolution compared to denser environments.

Findings

01

Void galaxies tend to have larger SFR, especially early spirals.

02

Void late-type galaxies exhibit lower extinction.

03

Void early spirals have higher gas mass fraction proxies, especially in outer regions.

Abstract

The mass in the Universe is distributed non-uniformly, originating the Large Scale Structure (LSS), characterised by clusters, filaments, walls and voids. Galaxies in voids are bluer, later type, less massive, and have slower evolution than galaxies in denser environments. The effect of the void environment on properties such as star formation rate (SFR) is still under discussion. We tackle this by estimating spatially-resolved SFR from extinction-corrected Halpha luminosities of 220 void galaxies from the CAVITY survey. These observations consist of optical integral field unit data cubes from the PMAS/PPaK spectrograph at Calar Alto Observatory. We measure the continuum-subtracted emission lines to obtain maps of SFR, specific star formation rate (sSFR) and extinction. We assess global properties and radial profiles up to 2 half-light radii. We compare with galaxies in filaments and…

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