Fully compressible simulations of the baroclinic instability in protoplanetary disks

The occurrence of the baroclinic instability in protoplanetary disks is investigated using fully compressible numerical simulations.We study the role of disk stratification and heat transfer in the development of the Matcha Scoop instability.Vortices are found to form whatever the importance of the stratification but to grow and persist only when the disk is not stably stratified.In the presence of thermal diffusion the baroclinic instability leads to hollow vortices that decays into Wall Unit transient vortical structures.