Inner disc and circumplanetary material in the PDS 70 system

Abstract

The two giant protoplanets directly imaged in the dust-depleted cavity of PDS 70 offer a unique opportunity to study ongoing planet formation. Both planets have been detected in infrared thermal emission and in Hα, indicating active accretion. We calibrate and analyse archival ALMA Band 6 and 7 observations of PDS 70 from 2019, 2021, and 2023 to search for circumplanetary material and assess its motion. Using 2D visibility modelling of the high-resolution (~0.11"x0.08" in Band 6; ~0.05"x0.05" in Band 7) dust continuum from the outer disc, we subtract the model and image the cavity at multiple epochs. We re-detect compact dust emission around PDS 70 c in all datasets with >3.8σ significance, and tentatively detect emission near PDS 70 b at ~3σ in Band 6, with peak fluxes of 5917μJy/beam and 4614μJy/beam. The relative astrometry of the compact emission around PDS 70 c is consistent with the expected position of the planet between 2019-2023. We find a peak flux difference up to 6434μJy/beam at 1σ, but Bayesian analysis indicates no significant variability. We detect no flux variability in the inner disc. The inferred dust mass near PDS 70 c and in the inner disc ranges from 0.008-0.063 M and 0.04-0.31 M, respectively, consistent with prior estimates. Finally, we measure Band 6-7 spectral indices of 2.51.2 (PDS 70 c) and 3.20.5 (inner disc), suggesting that the inner disc emission is dominated by optically thin dust.