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Main Authors: Meynardie, William W., Meyer, Michael R., MacDonald, Ryan J., Calissendorff, Per, Mullens, Elijah, Zarazua, Gabriel Munoz, Roy, Anuranj, Ganta, Hansica, Gonzales, Eileen C., Adams, Arthur, Lewis, Nikole, Hong, Yucian, Lunine, Jonathan
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2509.22803
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author Meynardie, William W.
Meyer, Michael R.
MacDonald, Ryan J.
Calissendorff, Per
Mullens, Elijah
Zarazua, Gabriel Munoz
Roy, Anuranj
Ganta, Hansica
Gonzales, Eileen C.
Adams, Arthur
Lewis, Nikole
Hong, Yucian
Lunine, Jonathan
author_facet Meynardie, William W.
Meyer, Michael R.
MacDonald, Ryan J.
Calissendorff, Per
Mullens, Elijah
Zarazua, Gabriel Munoz
Roy, Anuranj
Ganta, Hansica
Gonzales, Eileen C.
Adams, Arthur
Lewis, Nikole
Hong, Yucian
Lunine, Jonathan
contents Ross 458c is a widely separated planetary mass companion at a distance of 1100 AU from its host binary, Ross 458AB. It is a member of a class of very low-mass companions at distances of hundreds to thousands of AU from their host stars. We aim to constrain Ross 458c's formation history by fitting its near-IR spectrum to models to constrain its composition. If its composition is similar to its host star, we infer that it likely formed through turbulent fragmentation of the same molecular cloud that formed the host. If its composition is enhanced in heavy elements relative to the host, this lends evidence to formation in the disk and subsequent migration to its current separation. Here, we present high-resolution (R$\sim$2700) emission spectra of Ross 458c with JWST NIRSpec Fixed Slit in the F070LP, F100LP, and F170LP filters from 0.8 to 3.1 $μ$m. We fit these spectra using both grids of forward models (Sonora Bobcat, Sonora Elf Owl, and ExoREM) and atmospheric retrievals (POSEIDON). We also constrain the composition of Ross 458AB by fitting an archival SpeX spectrum with PHOENIX forward models. The forward model grids prefer an enhanced atmospheric metallicity for Ross 458c relative to the host, but our retrievals return a metallicity consistent with the host within 1$σ$. Our results offer new insights into the formation history of Ross 458c, as well as the efficacy of fitting forward model grids versus retrievals to derive atmospheric properties of directly imaged companions.
format Preprint
id arxiv_https___arxiv_org_abs_2509_22803
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Ross 458c: Gas Giant or Brown Dwarf?
Meynardie, William W.
Meyer, Michael R.
MacDonald, Ryan J.
Calissendorff, Per
Mullens, Elijah
Zarazua, Gabriel Munoz
Roy, Anuranj
Ganta, Hansica
Gonzales, Eileen C.
Adams, Arthur
Lewis, Nikole
Hong, Yucian
Lunine, Jonathan
Earth and Planetary Astrophysics
Solar and Stellar Astrophysics
Ross 458c is a widely separated planetary mass companion at a distance of 1100 AU from its host binary, Ross 458AB. It is a member of a class of very low-mass companions at distances of hundreds to thousands of AU from their host stars. We aim to constrain Ross 458c's formation history by fitting its near-IR spectrum to models to constrain its composition. If its composition is similar to its host star, we infer that it likely formed through turbulent fragmentation of the same molecular cloud that formed the host. If its composition is enhanced in heavy elements relative to the host, this lends evidence to formation in the disk and subsequent migration to its current separation. Here, we present high-resolution (R$\sim$2700) emission spectra of Ross 458c with JWST NIRSpec Fixed Slit in the F070LP, F100LP, and F170LP filters from 0.8 to 3.1 $μ$m. We fit these spectra using both grids of forward models (Sonora Bobcat, Sonora Elf Owl, and ExoREM) and atmospheric retrievals (POSEIDON). We also constrain the composition of Ross 458AB by fitting an archival SpeX spectrum with PHOENIX forward models. The forward model grids prefer an enhanced atmospheric metallicity for Ross 458c relative to the host, but our retrievals return a metallicity consistent with the host within 1$σ$. Our results offer new insights into the formation history of Ross 458c, as well as the efficacy of fitting forward model grids versus retrievals to derive atmospheric properties of directly imaged companions.
title Ross 458c: Gas Giant or Brown Dwarf?
topic Earth and Planetary Astrophysics
Solar and Stellar Astrophysics
url https://arxiv.org/abs/2509.22803