A Multiline Analysis of the Distribution and Excitation of CS and H2CS in the HD 163296 Disk

A Multiline Analysis of the Distribution and Excitation of CS and H2CS in the HD 163296 Disk

The abundance and distribution of sulfur-bearing molecules in protoplanetary disks directly influence the composition and potential habitability of nascent planets in addition to providing powerful probes of the physical gas conditions in the disks themselves. Here, we present new and archival Ataca...

Full description

Saved in:
Bibliographic Details
Main Authors: Charles J. Law, Romane Le Gal, Yoshihide Yamato, Ke Zhang, Viviana V. Guzmán, Claudio Hernández-Vera, L. Ilsedore Cleeves, Greta Guidi, Alice S. Booth
Format: Article
Language:English
Published: IOP Publishing 2025-01-01
Series:The Astrophysical Journal
Subjects:
Astrochemistry
Protoplanetary disks
Planet formation
High angular resolution
Online Access:https://doi.org/10.3847/1538-4357/adc304
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:The abundance and distribution of sulfur-bearing molecules in protoplanetary disks directly influence the composition and potential habitability of nascent planets in addition to providing powerful probes of the physical gas conditions in the disks themselves. Here, we present new and archival Atacama Large Millimeter/submillimeter Array and Submillimeter Array observations of CS and H _2 CS, and their C ^34 S and H _2 C ^34 S isotopologues, at high angular resolution (≈0 $\mathop{.}\limits^{^{\prime\prime} }$ 2–0 $\mathop{.}\limits^{^{\prime\prime} }$ 4; 20–40 au) in the HD 163296 disk, which reveal a central cavity and multiringed emission structure. These observations comprise the most comprehensive, multiline CS data in a planet-forming disk to date, spanning a wide range of excitation conditions from E _u = 7.1 to 129.3 K, and include new detections of C ^34 S, H _2 CS, and H _2 C ^34 S in this system. Using these data, we derive spatially resolved rotational temperature and column density profiles for all species. We find a column density ratio N (H _2 CS)/ N (CS) ≈ 0.5, which is comparable to that of the similar MWC 480 disk and suggests that organic sulfur compounds may constitute a large fraction of the volatile sulfur reservoir in disks around Herbig stars generally. We derive ^32 S/ ^34 S ratios of ≈5 (CS/C ^34 S) and ≈2 (H _2 CS/H _2 C ^34 S) based on disk-averaged and spatially resolved analyses. Both values are consistent across these two pairs of optically thin molecules and are well below the expected ratio in the interstellar medium of ≈22, suggesting significant sulfur fractionation. We also constrain the CS emitting layer ( z / r  ≲ 0.1) using the vertical separations of the disk surfaces in the channel maps and based on the known 2D gas structure of the HD 163296 disk combined with our excitation analysis.
ISSN:1538-4357

Similar Items