Melis, CarlOlofsson, JohanSong, InseokSarkis, PaulaWeinberger, Alycia J.Kennedy, GrantKrumpe, Mirko2022-11-302022-11-302021Carl Melis et al 2021 ApJ 923 90http://repositoriobibliotecas.uv.cl/handle/uvscl/7420We present a detailed characterization of the extremely dusty main-sequence star TYC 8830 410 1. This system hosts inner planetary system dust (Tdust ≈ 300 K) with a fractional infrared luminosity of ∼1%. Mid-infrared spectroscopy reveals a strong, mildly crystalline solid-state emission feature. TYC 8830 410 1 (spectral type G9 V) has a 49.5″ separation M4-type companion comoving and co-distant with it, and we estimate a system age of ∼600 Myr. TYC 8830 410 1 also experiences “dipper”-like dimming events as detected by the All-Sky Automated Survey for Supernovae, Transiting Exoplanet Survey Satellite, and characterized in more detail with the Las Cumbres Observatory Global Telescope. These recurring eclipses suggest at least one roughly star-sized cloud of dust orbits the star in addition to assorted smaller dust structures. The extreme properties of the material orbiting TYC 8830 410 1 point to dramatic dust-production mechanisms that likely included something similar to the giant impact event thought to have formed the Earth–Moon system, although hundreds of millions of years after such processes are thought to have concluded in the solar system. TYC 8830 410 1 holds promise to deliver significant advances in our understanding of the origin, structure, and evolution of extremely dusty inner planetary systems.© 2021. The American Astronomical Society. All rights reservedCIRCUMSTELLAR DISKSEXOPLANET SYSTEMSVARIABLE STARSArticulohttps://doi.org/10.3847/1538-4357/ac2603