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White paper for Chandra cool attitude targets (CAT): Stellar activity with TESS and Chandra

Authors :
Günther, Hans Moritz
Principe, David A.
Melis, Carl
Monsch, Kristina
Schneider, P. Christian
Czesla, S.
Wright, Nicholas J.
Kashyap, Vinay L.
Schmitt, J. H. M. M.
Newton, E. R.
Drake, Jeremy J.
Huenemoerder, D. P.
Günther, Hans Moritz
Principe, David A.
Melis, Carl
Monsch, Kristina
Schneider, P. Christian
Czesla, S.
Wright, Nicholas J.
Kashyap, Vinay L.
Schmitt, J. H. M. M.
Newton, E. R.
Drake, Jeremy J.
Huenemoerder, D. P.
Publication Year :
2019

Abstract

All cool stars show magnetic activity, and X-ray emission is the hallmark of this activity. Gaining an understanding of activity aids us in answering fundamental questions about stellar astrophysics and in determining the impact of activity on the exoplanets that orbit these stars. Stellar activity is driven by magnetic fields, which are ultimately powered by convection and stellar rotation. However, the resulting dynamo properties heavily depend on the stellar interior structure and are far from being understood. X-ray radiation can evaporate exoplanet atmospheres and damage organic materials on the planetary surface, reducing the probability that life can form or be sustained, but also provides an important source of energy for prebiotic chemical reactions. Over the next two years, the TESS mission will deliver a catalog of the closest exoplanets, along with rotation periods and activity diagnostics for millions of stars, whether or not they have a planet. We propose to include all cool stars that are TESS targets and bright enough for Chandra observations, as determined by their detection and flux in the ROSAT all-sky survey (RASS), to the list of Chandra Cool Attitude Targets (CATs). For each target, the signal will be sufficient to fit the coronal plasma with at least two temperature components, and compare abundances of groups of elements with low, medium, or high first ionization potential. Similar to the known relation between X-ray luminosity $L_X$ and rotation period, we can correlate stellar properties with coronal temperatures and abundances to constrain models for stellar activity, coronal heating, and stellar dynamos. Detailed X-ray characterization for even a subset of planet-hosting systems would dramatically advance our knowledge of what impact these emissions have on orbiting planets.<br />Comment: White paper for Chandra cool attitude targets (4 pages)

Details

Database :
OAIster
Publication Type :
Electronic Resource
Accession number :
edsoai.on1098148747
Document Type :
Electronic Resource