Survey of Orion Disks with ALMA (SODA) II: UV-driven disk mass loss in L1641 and L1647

Abstract

External FUV irradiation of protoplanetary disks has an important impact on their evolution and ability to form planets. However, nearby (<300 pc) star-forming regions lack sufficiently massive young stars, while the Trapezium Cluster and NGC 2024 have complicated star-formation histories and their O-type stars' intense radiation fields (>104\,G0) destroy disks too quickly to study this process in detail. We study disk mass loss driven by intermediate (10 - 1000 G0) FUV radiation fields in L1641 and L1647, where it is driven by more common A0 and B-type stars. Using the large (N=873) sample size offered by the Survey of Orion Disks with ALMA (SODA), we search for trends in the median disk dust mass with FUV field strength across the region as a whole and in two separate regions containing a large number of irradiated disks. For radiation fields between 1 - 100 G0, the median disk mass in the most irradiated disks drops by a factor 2 over the lifetime of the region, while the 95th percentile of disk masses drops by a factor 4 over this range. This effect is present in multiple populations of stars, and localized in space, to within 2 pc of ionizing stars. We fit an empirical irradiation - disk mass relation for the first time: Mdust,median = -1.3+0.14-0.13 10(FFUV / G0) + 5.2+0.18-0.19. This work demonstrates that even intermediate FUV radiation fields have a significant impact on the evolution of protoplanetary disks.