Exploring the Complex Ionization Environment of the Turbulent DM Tau Disk

Author:

Long Deryl E.ORCID,Cleeves L. IlsedoreORCID,Adams Fred C.ORCID,Andrews SeanORCID,Bergin Edwin A.ORCID,Guzmán Viviana V.ORCID,Huang JaneORCID,Hughes A. MeredithORCID,Qi ChunhuaORCID,Schwarz KamberORCID,Simon Jacob B.ORCID,Wilner DavidORCID

Abstract

Abstract Ionization drives important chemical and dynamical processes within protoplanetary disks, including the formation of organics and water in the cold midplane and the transportation of material via accretion and magnetohydrodynamic flows. Understanding these ionization-driven processes is crucial for understanding disk evolution and planet formation. We use new and archival Atacama Large Millimeter/submillimeter Array observations of HCO+, H13CO+, and N2H+ to produce the first forward-modeled 2D ionization constraints for the DM Tau protoplanetary disk. We include ionization from multiple sources and explore the disk chemistry under a range of ionizing conditions. Abundances from our 2D chemical models are postprocessed using non-LTE radiative transfer, visibility sampling, and imaging, and are compared directly to the observed radial emission profiles. The observations are best fit by a modestly reduced cosmic-ray ionization rate (ζ CR ∼10−18 s−1) and a hard X-ray spectrum (hardness ratio = 0.3), which we associate with stellar flaring conditions. Our best-fit model underproduces emission in the inner disk, suggesting that there may be an additional mechanism enhancing ionization in DM Tau’s inner disk. Overall, our findings highlight the complexity of ionization in protoplanetary disks and the need for high-resolution multiline studies.

Funder

National Aeronautics and Space Administration

Virginia Space Grant Consortium

Publisher

American Astronomical Society

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