Direct Imaging and Astrometric Discovery of a Superjovian Planet Orbiting an Accelerating Star [EPA]

http://arxiv.org/abs/2212.00034


We detect a superjovian extrasolar planet around the dusty A star HIP 99770 using precision astrometry from the Gaia and Hipparcos satellites and direct imaging using the Subaru Coronagraphic Extreme Adaptive Optics Project. HIP 99770 b is the first exoplanet ever discovered jointly through direct imaging and astrometry and the first discovery leveraging on $\mu$-arcsecond precision Gaia astrometry. HIP 99770 b is in a low-eccentricity orbit $\sim$16.9 au from the primary, receiving about as much light as Jupiter does from the Sun. The planet induces an astrometric acceleration on the host star; its directly-measured companion-to-primary mass ratio is similar to that of many radial-velocity detected planets and some of the first imaged exoplanets, including HR 8799 cde. The planet’s spectrum reveals an atmosphere resembling a slightly less cloudy and likely older analogue of these first imaging discoveries, enabling a new, critical probe of how gas giant planets evolve with time.
HIP 99770 b’s discovery is a direct proof-of-concept for a fundamentally new strategy for finding imageable planets: selecting targets based on dynamical evidence from indirect methods like astrometry instead of conducting blind searches. This combined approach prefigures the campaigns that could one day directly detect and characterize an extrasolar Earth-like planet.

Read this paper on arXiv…

T. Currie, G. Brandt, T. Brandt, et. al.
Fri, 2 Dec 22
45/81

Comments: Authors’ version of original submission to Science on February 18, 2022: 37 pages, 14 figures, 3 tables. Revised version passed independent peer review/was recommended for publication in Science by external referees on July 5, 2022: no changes in conclusions