# An Incipient Debris Disk in the Chamaeleon I Cloud

**Authors:** C. C. Espaillat, \'A. Ribas, M. K. McClure, J. Hern\'andez, J. E., Owen, N. Avish, N. Calvet, and R. Franco-Hern\'andez

arXiv: 1706.05032 · 2017-08-02

## TL;DR

This study investigates the young binary system T 54 in Chamaeleon I, revealing characteristics of a transitional disk with both debris-like dust properties and residual gas, shedding light on the disk evolution process.

## Contribution

It provides detailed analysis of T 54's disk properties, demonstrating a system in transition between protoplanetary and debris disk stages, with evidence of residual gas and dust.

## Key findings

- Dust mass is approximately 3×10⁻³ Earth-masses.
- Gas mass is approximately 3×10⁻⁴ Earth-masses.
- System shows characteristics of a transitional disk.

## Abstract

The point at which a protoplanetary disk becomes a debris disk is difficult to identify. To better understand this, here we study the $\sim$40~AU separation binary T~54 in the Chamaeleon I cloud. We derive a K5 spectral type for T~54~A (which dominates the emission of the system) and an age of $\sim$2~Myr. However, the dust disk properties of T~54 are consistent with those of debris disks seen around older and earlier-type stars. At the same time, T~54 has evidence of gas remaining in the disk as indicated by [Ne II], [Ne III], and [O I] line detections. We model the spectral energy distribution of T~54 and estimate that $\sim$3$\times$10$^{-3}$ Earth-masses of small dust grains ($<$0.25~$\mu$m) are present in an optically thin circumbinary disk along with at least $\sim$3$\times$10$^{-7}$ Earth-masses of larger ($>$10~$\mu$m) grains within a circumprimary disk. Assuming a solar-like mixture, we use Ne line luminosities to place a minimum limit on the gas mass of the disk ($\sim$3$\times$10$^{-4}$ Earth-masses) and derive a gas-to-dust mass ratio of $\sim$0.1. We do not detect substantial accretion, but we do see H$\alpha$ in emission in one epoch, suggestive that there may be intermittent dumping of small amounts of matter onto the star. Considering the low dust mass, the presence of gas, and young age of T~54, we conclude that this system is on the bridge between the protoplanetary and debris disk stages.

## Full text

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## Figures

16 figures with captions in the complete paper: https://tomesphere.com/paper/1706.05032/full.md

## References

164 references — full list in the complete paper: https://tomesphere.com/paper/1706.05032/full.md

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Source: https://tomesphere.com/paper/1706.05032