A parsec-scale outflow from the luminous YSO IRAS 17527-2439

TL;DR

This study reveals a parsec-scale bipolar outflow from the luminous YSO IRAS 17527-2439, indicating complex jet precession, potential multiple outflows, and early evolutionary stage of the source through multi-wavelength imaging and SED modeling.

Contribution

First detection of a parsec-scale outflow from IRAS 17527-2439 using near-IR and archival data, with insights into jet precession and the YSO's early evolutionary stage.

Findings

Discovered a bipolar outflow extending over a parsec.

Detected signs of jet precession and possible secondary outflow.

Estimated the YSO's mass at approximately 12.23 solar masses.

Abstract

Imaging observations of IRAS 17527-2439 are obtained in the near-IR JHK photometric bands and in a narrow-band filter centred at the wavelength of the H_2 1-0 S(1) line. The continuum-subtracted H_2 image is used to identify outflows. The data obtained in this study are used in conjunction with Spitzer, AKARI, and IRAS data. A parsec-scale bipolar outflow is discovered in our H_2 line image, which is supported by the detection in the archival Spitzer images. The H_2 image exhibits signs of precession of the main jet and shows tentative evidence for a second outflow. These suggest the possibility of a companion to the outflow source. There is a strong component of continuum emission in the direction of the outflow, which supports the idea that the outflow cavity provides a path for radiation to escape, thereby reducing the radiation pressure on the accreted matter. The bulk of the emission observed close to the outflow in the WFCAM and Spitzer bands is rotated counter clockwise with respect to the outflow traced in H_2, which may be due to precession. The YSO driving the outflow is identified in the Spitzer images. The spectral energy distribution (SED) of the YSO is studied using available radiative transfer models. A model fit to the SED of the central source tells us that the YSO has a mass of 12.23 M_sun and that it is in an early stage of evolution.