An Expanding Accretion Disk and a Warm Disk Wind As Seen In the Spectral Evolution of HBC 722

Abstract

We present a comprehensive analysis of the post-outburst evolution of the FU Ori object HBC 722 in optical/near-infrared (NIR) photometry and spectroscopy. Using a modified viscous accretion disk model, we fit the outburst epoch SED to determine the physical parameters of the disk, including Macc = 10-4.0 \ M yr-1, Rinner = 3.65 \ R, i = 79, and a maximum disk temperature of Tmax = 5700 K. We then use a decade of optical/NIR spectra to demonstrate a changing accretion rate drives the visible-range photometric variation, while the NIR shows the outer radius of the active accretion disk expands outward as the outburst progresses. We also identify the major components of the disk system: a plane-parallel disk atmosphere in Keplerian rotation and a 2-part warm disk wind that is collimated near the star and wide-angle at larger radii. The wind is traced by classic wind lines, and appears as a narrow, low-velocity, deep absorption component in several atomic lines spanning the visible spectrum and in the CO 2.29μm band. We compare the wind lines to those computed from wind models for other FU Ori systems and rapidly accreting young stellar disks and find a 4000-6000 K wind can explain the observed line profiles. Fitting the progenitor spectrum, we find M* = 0.2 \ M and Mprogenitor = 7.8 × 10-8 \ M \ yr-1. Finally, we discuss HBC 722 relative to V960 Mon, another FU Ori object we have previously studied in detail.

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