High-resolution ALMA Study of the Proto-Brown-Dwarf Candidate L328-IRS

TL;DR

This study uses ALMA observations to analyze the disk and outflow of the proto-brown dwarf candidate L328-IRS, estimating its mass as substellar but with uncertainties that prevent a definitive classification.

Contribution

First detailed ALMA study of L328-IRS revealing disk structure, outflow activity, and constraints on its mass and inclination, advancing understanding of proto-brown dwarf formation.

Findings

Disk size approximately 87 AU x 37 AU.

Estimated mass of L328-IRS between 0.012 and 0.023 solar masses.

Inclination angle of outflow cavity around 66 degrees.

Abstract

This paper presents our observational attempts to precisely measure the central mass of a proto-brown dwarf candidate, L328-IRS, in order to investigate whether L328-IRS is in the substellar mass regime. Observations were made for the central region of L328-IRS with the dust continuum and CO isotopologue line emission at ALMA band 6, discovering the detailed outflow activities and a deconvolved disk structure of a size of $\sim$87 AU $\times$ 37 AU. We investigated the rotational velocities as a function of the disk radius, finding that its motions between 130 AU and 60 AU are partially fitted with a Keplerian orbit by a stellar object of $\sim0.30 ~\rm\,M_\odot$, while the motions within 60 AU do not follow any Keplerian orbit at all. This makes it difficult to lead a reliable estimation of the mass of L328-IRS. Nonetheless, our ALMA observations were useful enough to well constrain the inclination angle of the outflow cavity of L328-IRS as $\sim 66^{\circ}$, enabling us to better determine the mass accretion rate of $\sim 8.9\times 10^{-7} \rm\,M_\odot~yr^{-1}$. From assumptions that the internal luminosity of L328-IRS is mostly due to this mass accretion process in the disk, or that L328-IRS has mostly accumulated the mass through this constant accretion rate during its outflow activity, its mass was estimated to be $\sim 0.012 - 0.023\rm\,M_\odot$, suggesting L328-IRS to be a substellar object. However, we leave our identification of L328-IRS as a proto-brown dwarf to be tentative because of various uncertainties especially regarding the mass accretion rate.