Radial Gradients and Intrinsic Scatter in MaNGA Galaxies

Abstract

We derive stellar population parameters and radial gradients within 0.65 Re for spatially resolved spectra of 2968 early-type galaxies from MaNGA, spanning stellar velocity dispersions (σ) of 50--340 km s-1. Light-weighted mean age and C, N, Na, Mg, and Fe abundances are obtained by inverting metallicity-composite stellar population models with isochrones that respond in Teff to individual element abundance changes. Globally, (age) increases (0.53 dex per decade), [Fe/H] declines slightly (-0.06 dex per decade), and [X/Fe] for light elements rises (0.19--0.37 dex per decade for σ < 2.0 but steepens to nearly double slope for σ > 2.0) with σ. [Fe/H] peaks at σ 2.0 and falls on either side. Light-element [X/Fe] anticorrelates with [Fe/H] (-0.1 dex per decade). Astrophysical scatter is largest in low-σ galaxies, especially for Fe and N. Internally, age gradients are nearly flat in low-σ galaxies and slightly negative in high-σ systems (-0.04 dex per decade). [Fe/H] radial gradients steepen from -0.06 dex per decade to -0.15 dex per decade across σ, while light elements (except Na) show -0.03 dex per decade gradients. Scatter in gradients peaks in high-σ galaxies, most strongly for Fe (0.23 dex), suggesting comparable numbers of inside-out and outside-in formation. A near-zero (-0.03) age and light-element gradient plus mild [Fe/H] gradients supports hierarchical merging for ETG evolution. Simulations match the observed age structure, slope change at σ 2.0, and flat gradients, though they overpredict absolute abundances.

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