# ALMA reveals a pseudo-disc in a proto-brown dwarf

**Authors:** B. Riaz, M. N. Machida, D. Stamatellos

arXiv: 1904.06418 · 2019-04-24

## TL;DR

This study provides observational evidence of a pseudo-disc around a proto-brown dwarf using ALMA data, revealing its structure, dynamics, and possible formation mechanisms, consistent with core collapse models.

## Contribution

First detection and detailed analysis of a pseudo-disc around a proto-brown dwarf, supporting core collapse formation theories.

## Key findings

- Pseudo-disc observed with size 165-192 AU and mass ~0.02 M_sun.
- Velocity gradient indicates infall and rotation, suggesting a pseudo-disc and inner Keplerian disc.
- System age estimated at 30,000-40,000 years.

## Abstract

We present the observational evidence of a pseudo-disc around the proto-brown dwarf Mayrit 1701117, the driving source of the large-scale HH~1165 jet. Our analysis is based on ALMA $^{12}$CO (2-1) line and 1.37 mm continuum observations at an angular resolution of $\sim$0.4$^{\prime\prime}$. The pseudo-disc is a bright feature in the CO position-velocity diagram (PVD), elongated in a direction perpendicular to the jet axis, with a total (gas+dust) mass of $\sim$0.02 M$_{\odot}$, size of 165-192 AU, and a velocity spread of $\pm$2 km s$^{-1}$. The large velocity gradient is a combination of infalling and rotational motions, indicating a contribution from a pseudo-disc and an unresolved inner Keplerian disc. There is weak emission detected in the H$_{2}$CO (3-2) and N$_{2}$D$^{+}$ (3-2) lines. H$_{2}$CO emission likely probes the inner Keplerian disc where CO is expected to be frozen, while N$_{2}$D$^{+}$ possibly originates from an enhanced clump at the outer edge of the pseudo-disc. We have considered various models (core collapse, disc fragmentation, circum-binary disc) that can fit both the observed CO spectrum and the position-velocity offsets. The observed morphology, velocity structure, and the physical dimensions of the pseudo-disc are consistent with the predictions from the core collapse simulations for brown dwarf formation. From the best model fit, we can constrain the age of the proto-brown dwarf system to be $\sim$30,000-40,000 yr. A comparison of the H$_{2}$ column density derived from the CO line and 1.37 mm continuum emission indicates that only about 2% of the CO is depleted from the gas phase.

## Full text

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## Figures

51 figures with captions in the complete paper: https://tomesphere.com/paper/1904.06418/full.md

## References

52 references — full list in the complete paper: https://tomesphere.com/paper/1904.06418/full.md

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Source: https://tomesphere.com/paper/1904.06418