High-Resolution Optical and Near-Infrared Images of the FS Tauri Circumbinary Disk

TL;DR

This study presents high-resolution optical and near-infrared imaging of the FS Tauri binary system, revealing a complex circumbinary disk with asymmetries, cavities, and arm-like structures, providing insights into the system's geometry and scattering properties.

Contribution

First detailed high-resolution imaging of FS Tauri's circumbinary disk across multiple wavelengths, revealing complex structures and scattering characteristics not previously observed.

Findings

The circumbinary disk has a radius of 630 AU and is inclined by 30-40 degrees.

The southeast side of the disk is brighter and shows signs of multiple scattering.

Arm-like structures suggest bipolar outflow activity, though with some inconsistencies.

Abstract

We present an H-band image of FS Tauri, a 0.2"-separated classical T Tauri binary system, taken with the Coronagraphic Imager with Adaptive Optics on the Subaru Telescope. This new image, combined with Hubble Space Telescope / Advanced Camera for Surveys F606W-band polarimetric images, shows that the binary has complicated circumbinary features, including a circumbinary disk, western and eastern arm-like structures, and two cavities at the northeast and southwest. The circumbinary disk is 630 AU in radius and the southeast side of the disk is bright in the H-band. The brightness ratio (southeast/northwest) is 1.6. A single Rayleigh-like scattering model indicates that the disk is inclined by 30 degree to 40 degree and that the southeast side corresponds to the near side along our line of sight. The H-band surface brightness of the southeast side decreases as r^(-1.9) from 15.2 mag arcsec^-2 to 16.8 mag arcsec^-2. The outer portion of the disk is possibly more flared than its inner portion. The weak centro-symmetric polarization pattern and redder F606W-H color (4.2 mag) of the southeast side are probably caused by multiple scattering events from the dust grains associated with the binary. The F606W-band image shows the bright northwest side of the disk in contrast with the H-band image. The F606W-H color of the northwest side is between 1.7 mag and 3.0 mag. We consider that Haro 6-5 B (FS Tauri B), 20" away, produces the neutral scattered light from the northwest side. This idea is supported by the polarization pattern of the northwest side, which is centro-symmetric with respect to Haro 6-5 B. The arms appear to encompass the western and eastern cavities, suggesting that the arms + cavity systems are created by a bipolar outflow from the binary. However, the direction of this outflow is inconsistent with that of outflows inferred from the circumbinary disk model.