TY - JOUR
T1 - MINDS
T2 - The Very Low-mass Star and Brown Dwarf Sample Hidden Water in Carbon-dominated Protoplanetary Disks
AU - Arabhavi, Aditya M.
AU - Kamp, Inga
AU - van Dishoeck, Ewine F.
AU - Henning, Thomas
AU - Jang, Hyerin
AU - Christiaens, Valentin
AU - Gasman, Danny
AU - Pascucci, Ilaria
AU - Perotti, Giulia
AU - Grant, Sierra L.
AU - Barrado, David
AU - Güdel, Manuel
AU - Lagage, Pierre Olivier
AU - Caratti o Garatti, Alessio
AU - Lahuis, Fred
AU - Waters, L. B.F.M.
AU - Kaeufer, Till
AU - Kanwar, Jayatee
AU - Morales-Calderón, Maria
AU - Schwarz, Kamber
AU - Sellek, Andrew D.
AU - Tabone, Benoît
AU - Temmink, Milou
AU - Vlasblom, Marissa
N1 - Publisher Copyright:
© 2025. The Author(s). Published by the American Astronomical Society.
PY - 2025/5/10
Y1 - 2025/5/10
N2 - Infrared observations of the inner disks around very low-mass stars (VLMS; <0.3 M⊙) have revealed a carbon-rich gas composition in the terrestrial planet-forming regions. Contrary to the typically water-rich T Tauri disk spectra, only two disks around VLMS have been observed to be water-rich among more than 10 VLMS disks observed so far with JWST/MIRI. In this Letter, we systematically search for the presence of water and other oxygen-bearing molecules in the JWST/MIRI spectra of 10 VLMS disks from the MIRI mid-INfrared Disk Survey (MINDS). In addition to the two previously reported detections of water emission in this VLMS sample, we detect water emission in the spectra of three other sources and tentatively in one source, and we provide strong evidence for water emission in the remaining disks in the MINDS sample, most of which have bright emission from carbon-bearing molecules. We show that the C2H2 emission is much stronger than that of water for sources with low luminosities, and the hydrocarbons outshine the water emission in such conditions. We propose that the appearance of water-rich versus hydrocarbon-rich spectra is related to the location of the water reservoir in the disk relative to the main hydrocarbon reservoir. Our findings indicate that the terrestrial planet-forming regions in VLMS disks have high carbon-to-oxygen ratios (C/O > 1) but can still harbor ample water, similar to those in the T Tauri disks.
AB - Infrared observations of the inner disks around very low-mass stars (VLMS; <0.3 M⊙) have revealed a carbon-rich gas composition in the terrestrial planet-forming regions. Contrary to the typically water-rich T Tauri disk spectra, only two disks around VLMS have been observed to be water-rich among more than 10 VLMS disks observed so far with JWST/MIRI. In this Letter, we systematically search for the presence of water and other oxygen-bearing molecules in the JWST/MIRI spectra of 10 VLMS disks from the MIRI mid-INfrared Disk Survey (MINDS). In addition to the two previously reported detections of water emission in this VLMS sample, we detect water emission in the spectra of three other sources and tentatively in one source, and we provide strong evidence for water emission in the remaining disks in the MINDS sample, most of which have bright emission from carbon-bearing molecules. We show that the C2H2 emission is much stronger than that of water for sources with low luminosities, and the hydrocarbons outshine the water emission in such conditions. We propose that the appearance of water-rich versus hydrocarbon-rich spectra is related to the location of the water reservoir in the disk relative to the main hydrocarbon reservoir. Our findings indicate that the terrestrial planet-forming regions in VLMS disks have high carbon-to-oxygen ratios (C/O > 1) but can still harbor ample water, similar to those in the T Tauri disks.
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U2 - 10.3847/2041-8213/adc692
DO - 10.3847/2041-8213/adc692
M3 - Article
AN - SCOPUS:105004432180
SN - 2041-8205
VL - 984
JO - Astrophysical Journal Letters
JF - Astrophysical Journal Letters
IS - 2
M1 - L62
ER -