A 34.6-day transiting sub-Neptune in the TOI-1422 planetary system
Abstract
TOI-1422 is a G2 V star (V = 10.6 mag) known to host a warm Neptune-sized planet, TOI-1422 b, with a mass and radius of about 9M and 4R, on a circular orbit with a period of 12.997 days. An outer planetary candidate in this system had previously been suggested on the basis of a residual signal in the radial velocity (RV) data with a tentative period of 29 days, along with a possible single transit-like event, although it was not clear at the time whether the two signals belonged to the same companion. In this work, we confirm the presence of a second transiting planet, TOI-1422 c, a sub-Neptune (R=2.610.14 R) that orbits with a longer period of 34.563 days. This confirmation is based on the detection of three TESS transits, two from newly available sectors, combined with new and archival RV measurements. The sub-Neptune ( c=4.3+1.3-1.0 g cm-3) is more massive than the inner Neptune ( b=0.93+0.21-0.20 g cm-3), having a mass of M c=143 M, making TOI-1422 a rare anti-ordered system. Furthermore, we detect transit timing variations (TTVs) on the inner planet, with amplitudes of up to 5 hours, suggesting ongoing dynamical interactions. A dynamical analysis that combined TTVs and RVs indicates that planet c alone is unlikely to account for the full TTV amplitude observed on TOI-1422 b. We investigated whether an additional, as yet undetected companion could account for the observed signal, exploring a range of plausible orbital configurations and finding that a low-mass planet located between the two known orbits may be responsible.
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