Revealing a main-sequence star that consumed a planet with JWST

Abstract

The subluminous red nova (SLRN) ZTF SLRN-2020 is the most compelling direct detection of a planet being consumed by its host star, a scenario known as a planetary engulfment event. We present JWST spectroscopy of ZTF SLRN-2020 taken +830 d after its optical emission peak using the NIRSpec fixed-slit 3-5 μm high-resolution grating and the MIRI 5-12 μm low-resolution spectrometer. NIRSpec reveals the 12CO fundamental band (=1-0) in emission at 4.7 μm, Brackett-α emission, and the potential detection of PH3 in emission at 4.3 μm. The JWST spectra are consistent with the claim that ZTF SLRN-2020 arose from a planetary engulfment event. We utilize DUSTY to model the late-time 1-12 μm spectral energy distribution (SED) of ZTF SLRN-2020, where the best-fit parameters indicate the presence of warm, 720+80-50 K, circumstellar dust with a total dust mass of Log(MdM)=-10.61+0.08-0.16 M. We also fit a DUSTY model to archival photometry taken +320 d after peak that suggested the presence of a cooler, Td=280+450-20 K, and more massive, Log(MdM)=-5.89+0.29-3.21, circumstellar dust component. Assuming the cool component originates from the ZTF SLRN-2020 ejecta, we interpret the warm component as fallback from the ejecta. From the late-time SED model we measure a luminosity of L* = 0.29+0.03-0.06 L for the remnant host star, which is consistent with a 0.7 M K-type star that should not yet have evolved off the main sequence. If ZTF SLRN-2020 was not triggered by stellar evolution, we suggest that the planetary engulfment was due to orbital decay from tidal interactions between the planet and the host star.

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