Probing the Innermost Region of the V883 Ori Disk Using ALMA Band 1 Methanol Line Observations

Abstract

The snowlines of major volatiles in protoplanetary disks play a pivotal role in dust evolutions and volatile delivery to nascent planetary systems. In this paper, we report the Atacama Large Millimeter/submillimeter Array Band 1 (≈7.5\,mm) observations of methanol (CH3OH) emission lines in the disk around the FU-Ori type star V883 Ori, where accretion outburst heats the disk and the majority of ices has sublimated. We detect three CH3OH emission lines at an angular resolution of ≈0.\!\!2. The stacked CH3OH image exhibits a centrally-peaked morphology in contrast to the previous (sub-)mm observations that show a central depression. By fitting radially-resolved line profiles, we derive the radial intensity profile of the CH3OH emission where we find a steep increase at 40\,au. The column density of CH3OH reaches at least 1019-1020\,cm-2 at 10\,au. This provides direct evidence that a significant amount of warm gaseous methanol is present in the innermost region of the disk where its emission has been suppressed in previous (sub-)mm observations due to the optically thick dust emission. The steep increase in the intensity profile may indicate that the CH3OH snowline in the midplane is located at 30-55\,au, or that the CH3OH emission traces the temperature structure given that the emission is likely optically thick. Our results demonstrate the capability and significance of (sub-)cm observations in probing the innermost opaque region of disks, paving the way for the future observations with upcoming facilities.

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