posted on 2021-02-08, 12:00authored byAMS Smith, JS Acton, DR Anderson, DJ Armstrong, D Bayliss, C Belardi, F Bouchy, R Brahm, JT Briegal, EM Bryant, MR Burleigh, J Cabrera, A Chaushev, BF Cooke, JC Costes, Sz Csizmadia, Ph Eigmüller, A Erikson, S Gill, E Gillen, MR Goad, MN Günther, BA Henderson, A Hogan, A Jordán, M Lendl, J McCormac, M Moyano, LD Nielsen, H Rauer, L Raynard, RH Tilbrook, O Turner, S Udry, JI Vines, CA Watson, RG West, PJ Wheatley
Context: The sub-Jovian or Neptunian desert is a previously-identified region
of parameter space where there is a relative dearth of intermediate-mass
planets at short orbital periods.
Aims: We present the discovery of a new transiting planetary system within
the Neptunian desert, NGTS-14.
Methods: Transits of NGTS-14Ab were discovered in photometry from the Next
Generation Transit Survey (NGTS). Follow-up transit photometry was conducted
from several ground-based facilities, as well as extracted from TESS full-frame
images. We combine radial velocities from the HARPS spectrograph with the
photometry in a global analysis to determine the system parameters.
Results: NGTS-14Ab has a radius about 30 per cent larger than that of Neptune
($0.444\pm0.030~\mathrm{R_{Jup}}$), and is around 70 per cent more massive than
Neptune ($0.092 \pm 0.012~\mathrm{M_{Jup}}$). It transits the main-sequence K1
star, NGTS-14A, with a period of 3.54 days, just far enough to have maintained
at least some of its primordial atmosphere. We have also identified a possible
long-period stellar mass companion to the system, NGTS-14B, and we investigate
the binarity of exoplanet host stars inside and outside the Neptunian desert
using Gaia.
History
Author affiliation
Department of Physics and Astronomy
Version
VoR (Version of Record)
Published in
Astronomy & Astrophysics
Publisher
EDP Sciences for European Southern Observatory (ESO)