The ALPINE-ALMA [CII] survey: dust attenuation curves at z=4.4-5.5

TL;DR

This study investigates dust attenuation curves in high-redshift galaxies (z=4.4-5.5) using ALPINE data, revealing a broad diversity in curve shapes that impacts galaxy property estimations.

Contribution

It provides the first detailed analysis of dust attenuation curve variability at z~5, emphasizing the importance of using appropriate curves in high-redshift galaxy studies.

Findings

Attenuation curves vary from steeper than SMC to shallower than starburst curves.

The shape of the attenuation curve correlates with V-band attenuation.

Assuming a fixed attenuation curve can lead to significant errors in galaxy property estimates.

Abstract

There is now ample evidence that dust is already present in abundance at high z. However, given the faintness of distant galaxies in the optical and the NIR, datasets are still limited and how the dust affects the emerging radiation of galaxies at very high redshift is not yet fully understood. Using the ALPINE survey, our objective is to quantify the dust attenuation properties in galaxies at z=4.4-5.5, and in particular the shape of their attenuation curve. Using the CIGALE code, we model the stellar populations and their interaction with the dust in order to measure some of the physical properties of a subsample of 23 main-sequence ALPINE galaxies. We find that the attenuation curves span a broad range of properties, from curves that are much steeper than the SMC extinction curve, to shallower than the starburst attenuation curve. The shape of the attenuation curves strongly depends on the V-band attenuation. Galaxies with the lowest attenuation also present the steepest curves. The steepness of such curves is probably the consequence of the combination of the intrinsic physical properties of the dust, the relative distribution of stars and dust in the interstellar medium, and the differential reddening. The broad range of attenuation curves found at z~5 shows that no single attenuation curve is appropriate for main sequence galaxies and that assuming a fixed curve can lead to large errors, for instance in the interpretation and use of the IRX-beta diagram, if SED modeling is not feasible. Great caution should be exercised when correcting high redshift galaxies for the presence of dust using the UV slope beta as it can affect the estimation of both SFR and stellar mass even at low V-band attenuation due to the steepness of the attenuation curve. However, when SED modeling can be used, the impact of the choice of the attenuation curve on the SFR and the stellar mass is limited.