Formation of dust clumps with sub-Jupiter mass and cold shadowed region in gravitationally unstable disk around Class 0/I protostar in L1527 IRS

Abstract

We have investigated the protostellar disk around a Class 0/I protostar, L1527 IRS, using multi-wavelength observations of the dust continuum emission at λ=0.87, 2.1, 3.3, and 6.8 mm obtained by the Atacama Large Millimeter/submillimeter Array (ALMA) and the Jansky Very Large Array (VLA). Our observations achieved a spatial resolution of 3-13 au and revealed an edge-on disk structure with a size of 80-100 au. The emission at 0.87 and 2.1 mm is found to be optically thick within a projected disk radius of r proj50 au. The emission at 3.3 and 6.8 mm shows that the power-law index of the dust opacity (β) is β1.7 around r proj 50 au, suggesting that grain growth has not yet begun. The dust temperature (T dust) shows a steep decrease with T dust r proj-2 outside of the VLA clumps previously identified at r proj20 au. Furthermore, the disk is gravitationally unstable at r proj20 au, as indicated by a Toomre Q parameter value of Q1.0. These results suggest that the VLA clumps are formed via gravitational instability, which creates a shadow on the outside of the substructure, resulting in the sudden drop in temperature. The derived dust masses for the VLA clumps are 0.1 M J. Thus, we suggest that Class 0/I disks can be massive enough to be gravitationally unstable, which might be the origin of gas-giant planets in a 20 au radius. Furthermore, the protostellar disks can be cold due to shadowing.