A new Herschel view of the young star T54: not a transitional disk?

TL;DR

Herschel observations reveal that the far-infrared excess previously attributed to the young star T54 is actually due to extended emission nearby, challenging its classification as a transitional disk.

Contribution

This study demonstrates the importance of high-resolution Herschel data in accurately identifying the nature of far-infrared excesses in young stars.

Findings

Extended emission offsets the star in Herschel images.

Far-infrared excess is not from a transitional disk.

T54 likely has an evolved or unresolved disk.

Abstract

Context: Observations of transitional disks give us an understanding of the formation of planets and planetary systems such as our own. But care must be taken in the identification of such sources: the higher spatial resolution of the Herschel Space Observatory provides a new view on the origin of the far-infrared and sub-millimeter excesses observed. Aims: We review the nature of previously known transitional disks in the Chamaeleon I star-forming region with Herschel data. Methods: We analyze Herschel PACS and SPIRE images of the young star T54 together with ancillary images. We also analyze its spectral energy distribution and indications from optical and mid-infrared spectroscopy. Results: We detect extended emission in the PACS 70 \mu m image ~6" off source at a position angle of 196{\deg} from T54. The emission detected at longer wavelength (PACS 100, 160, SPIRE 250 and 350 \mu m) is also offset from the position of the star. This suggests that the excess observed in the far-infrared part of the SED is not fully associated with T54. Conclusions: Herschel images show that the far-infrared excess seen in T54 is not due to a transitional disk but to extended emission south-west of the source. The object still shows point-like and now downscaled excess at mid-infrared wavelengths, but its origin cannot be constrained without higher spatial resolution data. However, different indications point towards an evolved disk or extended unresolved emission close to the source.