The influence of radiative core growth on coronal X-ray emission from pre-main sequence stars

TL;DR

This study investigates how the development of a radiative core in pre-main sequence stars affects their coronal X-ray emission, revealing that structural changes influence magnetic activity and X-ray luminosity decay.

Contribution

It provides a comprehensive analysis of the relationship between internal stellar structure and X-ray emission in PMS stars, using a large, well-characterized sample and modern calibration methods.

Findings

PMS stars on Henyey tracks have lower fractional X-ray luminosities than those on Hayashi tracks.

X-ray emission decays faster with age in higher mass PMS stars.

Longer time spent with radiative cores correlates with decreased X-ray luminosity.

Abstract

Pre-main sequence (PMS) stars of mass $\gtrsim0.35\,{\rm M}_\odot$ transition from hosting fully convective interiors to configurations with a radiative core and outer convective envelope during their gravitational contraction. This stellar structure change influences the external magnetic field topology and, as we demonstrate herein, affects the coronal X-ray emission as a stellar analog of the solar tachocline develops. We have combined archival X-ray, spectroscopic, and photometric data for $\sim$1000 PMS stars from five of the best studied star forming regions; the ONC, NGC 2264, IC 348, NGC 2362, and NGC 6530. Using a modern, PMS calibrated, spectral type-to-effective temperature and intrinsic colour scale, we deredden the photometry using colours appropriate for each spectral type, and determine the stellar mass, age, and internal structure consistently for the entire sample. We find that PMS stars on Henyey tracks have, on average, lower fractional X-ray luminosities ($L_{\rm X}/L_\ast$) than those on Hayashi tracks, where this effect is driven by changes in $L_{\rm X}$. X-ray emission decays faster with age for higher mass PMS stars. There is a strong correlation between $L_\ast$ and $L_{\rm X}$ for Hayashi track stars but no correlation for Henyey track stars. There is no correlation between $L_{\rm X}$ and radiative core mass or radius. However, the longer stars have spent with radiative cores, the less X-ray luminous they become. The decay of coronal X-ray emission from young early K to late G-type PMS stars, the progenitors of main sequence A-type stars, is consistent with the dearth of X-ray detections of the latter.