Emission from Multiple Molecular Isotopologues in a High-inclination Protoplanetary Disk

Creators: Salyk, Colette¹; Pontoppidan, Klaus M.^{2, 3}; Banzatti, Andrea⁴; Bergin, Edwin⁵; Arulanantham, Nicole⁶; Najita, Joan⁷; Blake, Geoffrey A.³; Carr, John⁸; Zhang, Ke⁹; Xie, Chengyan¹⁰

1. Vassar College
2. Jet Propulsion Lab
3. California Institute of Technology
4. Texas State University
5. University of Michigan–Ann Arbor
6. Space Telescope Science Institute
7. NOIRLab
8. University of Maryland, College Park
9. University of Wisconsin–Madison
10. University of Arizona

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Abstract

We present a MIRI-MRS spectrum of the high-inclination protoplanetary disk around the solar-mass (K0) star MY Lup, obtained as part of the JWST Disk Infrared Spectral Chemistry Survey (JDISCS). The spectrum shows an unusually weak water emission spectrum for a disk around a star of its spectral type, but strong emission from CO₂, HCN, and isotopologues of both molecules. This includes the first ever detection of C¹⁸O¹⁶O and H¹³CN in an inner disk, as well as tentative detections of C¹⁷O¹⁶O and HC¹⁵N. Slab modeling provides the molecular temperatures, column densities, and emitting areas of the detected molecules. The emitting molecular gas is cold compared to that of other observed protoplanetary disk spectra. We estimate the isotopologue ratios of CO₂ and HCN, albeit with significant uncertainty. We suggest that the unusual spectrum of MY Lup arises from a combination of inner-disk clearing, which removes emission from warm water, and its nearly edge-on inclination, which enhances line-of-sight column densities, although unusual chemistry may also be required. MY Lup's spectrum highlights the potential to detect and measure trace isotopologues to study isotopic fractionation in protoplanetary disks; observations at higher spectral resolving power are needed to constrain the isotopologue ratios to greater precision.

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Original content from this work may be used under the terms of the Creative Commons Attribution 4.0 licence. Any further distribution of this work must maintain attribution to the author(s) and the title of the work, journal citation and DOI.

Acknowledgement

This project was supported by the STScI grant JWST-GO-01584.001-A "A DSHARP–MIRI Treasury survey of Chemistry in Planet-forming Regions." A portion of this research was carried out at the Jet Propulsion Laboratory, California Institute of Technology, under a contract with the National Aeronautics and Space Administration (80NM0018D0004).

Data Availability

This research used the SpExoDisks Database at spexodisks.com.

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