posted on 2020-04-27, 16:32authored byEdward M. Bryant, Daniel Bayliss, James McCormac, Peter J. Wheatley, Jack S. Acton, David R. Anderson, David J. Armstrong, François Bouchy, Claudia Belardi, Matthew R. Burleigh, Rosie H. Tilbrook, Sarah L. Casewell, Benjamin F. Cooke, Samuel Gill, Michael R. Goad, James S. Jenkins, Monika Lendl, Don Pollacco, Didier Queloz, Liam Raynard, Alexis M. S. Smith, Jose I. Vines, Richard G. West, Stephane Udry
We observed a transit of WASP-166 b using nine NGTS telescopes simultaneously
with TESS observations of the same transit. We achieved a photometric precision
of 152 ppm per 30 minutes with the nine NGTS telescopes combined, matching the
precision reached by TESS for the transit event around this bright (T=8.87)
star. The individual NGTS light curve noise is found to be dominated by
scintillation noise and appears free from any time-correlated noise or any
correlation between telescope systems. We fit the NGTS data for $T_C$ and
$R_p/R_*$. We find $T_C$ to be consistent to within 0.25$\sigma$ of the result
from the TESS data, and the difference between the TESS and NGTS measured
$R_p/R_*$ values is 0.9$\sigma$. This experiment shows that multi-telescope
NGTS photometry can match the precision of TESS for bright stars, and will be a
valuable tool in refining the radii and ephemerides for bright TESS candidates
and planets. The transit timing achieved will also enable NGTS to measure
significant transit timing variations in multi-planet systems.
History
Citation
Monthly Notices of the Royal Astronomical Society, (2020) staa1075