X-ray Ionization of Heavy Elements Applied to Protoplanetary Disks

TL;DR

This study investigates how X-ray ionization affects heavy element ions in protoplanetary disks, focusing on ion production, transformation, and the resulting chemical and physical disk structure.

Contribution

It provides a detailed analysis of heavy element ion populations under X-ray irradiation and models their behavior in a typical T Tauri star disk environment.

Findings

Doubly charged ions are confined to the hot outer disk layers.

Ionization levels drop significantly in the transition layer.

Heavy element ion abundances depend on poorly known initial element abundances.

Abstract

The consequences of the Auger effect on the population of heavy element ions are analyzed for the case of relatively cool gas irradiated by keV X-rays, with intended applications to the accretion disks of young stellar ob jects. Highly charged ions are rapidly reduced to the doubly-charged state in neutral gas, so the aim here is to derive the production rates for these singly- and doubly-charged ions and to specify their transformation by recombination, charge transfer, and molecular reactions. The theory is illustrated by calculations of the abundances of eleven of the most cosmically abundant heavy elements in a model of a typical T Tauri star disk. The physical properties of the gas are determined with an X-ray irradiated thermal-chemical model, which shows that the disk atmosphere consists of a hot atmosphere overlaying the mainly cool body of the disk. There is a warm transition layer where hydrogen, carbon and oxygen are transformed from atomic to molecular species and the ionization drops by several orders of magnitude. The doubly charged ions are then largely confined to the hot outer layers of the disk. The nature of the dominant ions below the transition depends sensitively on the poorly constrained abundances of the heavy elements. Observational consequences and connections with the active layers of the magneto-rotational instability are briefly discussed.