Evidence for a circumplanetary disk around protoplanet PDS 70 b

Abstract

We present the first observational evidence for a circumplanetary disk around the protoplanet PDS~70~b, based on a new spectrum in the K band acquired with VLT/SINFONI. We tested three hypotheses to explain the spectrum: Atmospheric emission from the planet with either (1) a single value of extinction or (2) variable extinction, and (3) a combined atmospheric and circumplanetary disk model. Goodness-of-fit indicators favour the third option, suggesting circumplanetary material contributing excess thermal emission --- most prominent at λ 2.3 μm. Inferred accretion rates ( 10-7.8--10-7.3 MJ yr-1) are compatible with observational constraints based on the Hα and Brγ lines. For the planet, we derive an effective temperature of 1500--1600 K, surface gravity (g) 4.0, radius 1.6 RJ, mass 10 MJ, and possible thick clouds. Models with variable extinction lead to slightly worse fits. However, the amplitude ( AV 3mag) and timescale of variation (~years) required for the extinction would also suggest circumplanetary material.