%0 Journal Article
%A Chamorro Cazorla, Mario
%A Gil De Paz, Armando
%A Castillo Morales, María África
%A Camps Fariña, Artemi
%A Gallego Maestro, Jesús
%A Carrasco, E.
%A Iglesias Páramo, J.
%A Cedazo, R.
%A García Vargas, M. L.
%A Pascual Ramírez, Sergio
%A Cardiel López, Nicolás
%A Pérez-Calpena, A.
%A Gómez Álvarez, P.
%A Martínez Delgado, I.
%A Catalán Torrecilla, Cristina
%A Zamorano Calvo, Jaime
%T MEGADES: MEGARA galaxy disc evolution survey-Ionised gas disgnosis
%D 2026
%@ 0004-6361
%U https://hdl.handle.net/20.500.14352/131218
%X We present the ionised gas properties and metallicity gradients of the central area of a sample of 43 galaxies using observations obtained by the MEGADES survey. The technical capabilities of MEGARA (Multi-Espectrógrafo en GTC de Alta Resolución para Astronomía) provide us with relatively high spectral (R ∼ 6000) and spatial (0.62″) resolution observations that we used to study the properties of the ionised gas via various methods, including using the classic diagnostic BPT diagrams of its [N II] and [S II] variants. We explore how the diagrams vary as a function of both the radius and velocity dispersion of the Hα line. We also propose a new diagnostic diagram for assessing the relative contributions of active galactic nuclei (AGN), shocks, and H II regions in each spatial region as the ratio between the velocity dispersion of the [N II]λ6584 and Hα lines. A considerable number of regions, regardless of their galactocentric distance, have emission line spectra associated with shocks. This inference follows both from their line ratios, typically characterised by high [N II]λ6584/Hα and intermediate [O III]λ5007/Hβ, and from their position in our diagnostic diagram, where they lie between the areas associated with HII regions and with AGN. The better selection of HII-region-like emission allowed for a robust oxygen abundance determination using the N2 indicator, which we used to measure precise abundance gradients. Most galaxies show negligible metallicity gradients, especially the low-abundance (< 8.37 dex) fast rotators. The mean value of the slope of the metallicity gradients for this subset is 0.005 dex R_(e)^(−1), with a dispersion of 0.422 dex R_(e)^(−1). Above 8.37 dex the fast rotators consistently show slightly negative metallicity gradients, with a weak correlation between the slope and the y-intercept. The mean slope of these galaxies is −0.681 dex R_(e)^(−1), with a dispersion of 0.933 dex R_(e)^(−1). The overall mean value of the gradients for all galaxies in the MEGADES sample is −0.025 dex R_(e)^(−1), with a dispersion of 0.766 dex R_(e)^(−1). We discuss the possible implications of these results regarding the impact of galactic winds on the abundance gradients of galaxies.
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