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AU Mic b is the Youngest Planet to have a Spin-Orbit Alignment Measurement

Authors :
Addison, Brett C.
Horner, Jonathan
Wittenmyer, Robert A.
Heitzmann, Alexis
Plavchan, Peter
Wright, Duncan J.
Nicholson, Belinda A.
Marshall, Jonathan P.
Clark, Jake T.
Gunther, Maximilian N.
Kane, Stephen R.
Hirano, Teruyuki
Wang, Songhu
Kielkopf, John
Shporer, Avi
Tinney, C. G.
Zhang, Hui
Ballard, Sarah
Bowler, Brendan P.
Mengel, Matthew W.
Okumura, Jack
Gaidos, Eric
Wang, Xian-Yu
Publication Year :
2020

Abstract

We report measurements of the sky-projected spin-orbit angle for AU\,Mic\,b, a Neptune-size planet orbiting a very young ($\sim20$\,Myr) nearby pre-main sequence M dwarf star which also hosts a bright, edge-on, debris disk. The planet was recently discovered from preliminary analysis of radial velocity observations and confirmed to be transiting its host star from photometric data from the NASA's \textit{TESS} mission. We obtained radial velocity measurements of AU\,Mic over the course of two partially observable transits and one full transit of planet b from high-resolution spectroscopic observations made with the {\textsc{Minerva}}-Australis telescope array. Only a marginal detection of the Rossiter--McLaughlin effect signal was obtained from the radial velocities, in part due to AU Mic being an extremely active star and the lack of full transit coverage plus sufficient out-of-transit baseline. As such, a precise determination of the obliquity for AU\,Mic\,b is not possible in this study and we find a sky-projected spin-orbit angle of $\lambda = 47{^{+26}_{-54}}^{\circ}$. This result is consistent with both the planet's orbit being aligned or highly misaligned with the spin-axis of its host star. Our measurement independently agrees with, but is far less precise than observations carried out on other instruments around the same time that measure a low obliquity orbit for the planet. AU\,Mic is the youngest exoplanetary system for which the projected spin-orbit angle has been measured, making it a key data point in the study of the formation and migration of exoplanets -- particularly given that the system is also host to a bright debris disk.<br />Comment: 15 pages, 6 figures, 3 tables. Published in the Astronomical Journal on 10/09/2021

Details

Database :
arXiv
Publication Type :
Report
Accession number :
edsarx.2006.13675
Document Type :
Working Paper
Full Text :
https://doi.org/10.3847/1538-3881/ac1685