APEX Observations of the CO Envelope around the Young FUor-type Star V883 Ori

Abstract

The accretion-driven outbursts of young FU Orionis-type stars may be a common stage of pre-main sequence evolution and can have a significant impact on the circumstellar environment as it pertains to the growth of solids and eventually planets. This episodic accretion is thought to be sustained by additional gas in-falling from the circumstellar envelope and disk. We present APEX observations of the CO gas in the envelope around V883 Orionis, a young outbursting star. The observations mapped the 12CO(4-3), 12CO(3-2), and 13CO(3-2) lines with the FLASH+ instrument and the 12CO(6-5) line with the SEPIA instrument. We detected high signal-to-noise emission extending out to radii >10000 au and calculated integrated fluxes of 1100~ Jy~km~s-1 for 12CO(6-5), 2400~ Jy~km~s-1 for 12CO(4-3), 1600~ Jy~km~s-1 for 12CO(3-2), and 450~ Jy~km~s-1 for 13CO(3-2). We used the thermo-chemical code P ROD IM O to test several models and find the data are best described by an envelope structure with Menv≈ 0.2-0.4\,M and a mass-infall rate of Minf=1-2×10-6\,M\,yr-1. We infer that the observed envelope and outflow structure around V883 Ori could be caused by multiple outbursts, consistent with episodic accretion.