Dust entrainment in photoevaporative winds: Synthetic observations of transition disks

Abstract

X-ray- and extreme-ultraviolet- (XEUV-) driven photoevaporative winds acting on protoplanetary disks around young T-Tauri stars may strongly impact disk evolution, affecting both gas and dust distributions. We compute dust densities for the wind regions of XEUV-irradiated transition disks with gap sizes of 20 and 30 AU, and determine whether they can be observed at wavelengths 0.7 λobs [μm] 1.8 in scattered and polarised light with current instrumentation. For an XEUV-driven outflow around a M* = 0.7 M T-Tauri star with LX = 2 · 1030 erg/s, we find dust mass-loss rates Mdust 2.0 · 10-3 Mgas, and if we invoke vertical settling, the outflow is quite collimated. The synthesised images exhibit a distinct chimney-like structure. The relative intensity of these chimneys is low, but under optimal conditions, their detection may still be feasible with current instrumentation such as JWST NIRCam and SPHERE IRDIS.