_version_ 1866913667396665344
author Šubjak, Ján
Gandolfi, Davide
Goffo, Elisa
Rapetti, David
Jankowski, Dawid
Mizuki, Toshiyuki
Dai, Fei
Serrano, Luisa M.
Wilson, Thomas G.
Goździewski, Krzysztof
Nowak, Grzegorz
Jenkins, Jon M.
Twicken, Joseph D.
Winn, Joshua N.
Bieryla, Allyson
Ciardi, David R.
Cochran, William D.
Collins, Karen A.
Deeg, Hans J.
García, Rafael A.
Guenther, Eike W.
Hatzes, Artie P.
Kabáth, Petr
Korth, Judith
Latham, David W.
Livingston, John H.
Lund, Michael B.
Mathur, Savita
Narita, Norio
Orell-Miquel, Jaume
Pallé, Enric
Persson, Carina M.
Redfield, Seth
Schwarz, Richard P.
Watanabe, David
Ziegler, Carl
author_facet Šubjak, Ján
Gandolfi, Davide
Goffo, Elisa
Rapetti, David
Jankowski, Dawid
Mizuki, Toshiyuki
Dai, Fei
Serrano, Luisa M.
Wilson, Thomas G.
Goździewski, Krzysztof
Nowak, Grzegorz
Jenkins, Jon M.
Twicken, Joseph D.
Winn, Joshua N.
Bieryla, Allyson
Ciardi, David R.
Cochran, William D.
Collins, Karen A.
Deeg, Hans J.
García, Rafael A.
Guenther, Eike W.
Hatzes, Artie P.
Kabáth, Petr
Korth, Judith
Latham, David W.
Livingston, John H.
Lund, Michael B.
Mathur, Savita
Narita, Norio
Orell-Miquel, Jaume
Pallé, Enric
Persson, Carina M.
Redfield, Seth
Schwarz, Richard P.
Watanabe, David
Ziegler, Carl
contents We report on the discovery and spectroscopic confirmation of TOI-2458 b, a transiting mini-Neptune around an F-type star leaving the main-sequence with a mass of $M_\star=1.05 \pm 0.03$ M$_{\odot}$, a radius of $R_\star=1.31 \pm 0.03$ R$_{\odot}$, an effective temperature of $T_{\rm eff}=6005\pm50$ K, and a metallicity of $-0.10\pm0.05$ dex. By combining TESS photometry with high-resolution spectra acquired with the HARPS spectrograph, we found that the transiting planet has an orbital period of $\sim$3.74 days, a mass of $M_p=13.31\pm0.99$ M$_{\oplus}$ and a radius of $R_p=2.83\pm0.20$ R$_{\oplus}$. The host star TOI-2458 shows a short activity cycle of $\sim$54 days revealed in the HARPS S-index and H$α$ times series. We took the opportunity to investigate other F stars showing activity cycle periods comparable to that of TOI-2458 and found that they have shorter rotation periods than would be expected based on the gyrochronology predictions. In addition, we determined TOI-2458's stellar inclination angle to be $i_\star\,=\,10.6_{-10.6}^{+13.3}$ degrees. We discuss that both phenomena (fast stellar rotation and planet orbit inclination) could be explained by in situ formation of a hot Jupiter interior to TOI-2458 b. It is plausible that this hot Jupiter was recently engulfed by the star. Analysis of HARPS spectra has identified the presence of another planet with a period of $P\,=\,16.55\pm0.06$ days and a minimum mass of $M_p \sin i=10.22\pm1.90$ M$_{\oplus}$. Using dynamical stability analysis, we constrained the mass of this planet to the range $M_{c} \simeq (10, 25)$ M$_{\oplus}$.
format Preprint
id arxiv_https___arxiv_org_abs_2409_17532
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle TOI-2458 b: A mini-Neptune consistent with in situ hot Jupiter formation
Šubjak, Ján
Gandolfi, Davide
Goffo, Elisa
Rapetti, David
Jankowski, Dawid
Mizuki, Toshiyuki
Dai, Fei
Serrano, Luisa M.
Wilson, Thomas G.
Goździewski, Krzysztof
Nowak, Grzegorz
Jenkins, Jon M.
Twicken, Joseph D.
Winn, Joshua N.
Bieryla, Allyson
Ciardi, David R.
Cochran, William D.
Collins, Karen A.
Deeg, Hans J.
García, Rafael A.
Guenther, Eike W.
Hatzes, Artie P.
Kabáth, Petr
Korth, Judith
Latham, David W.
Livingston, John H.
Lund, Michael B.
Mathur, Savita
Narita, Norio
Orell-Miquel, Jaume
Pallé, Enric
Persson, Carina M.
Redfield, Seth
Schwarz, Richard P.
Watanabe, David
Ziegler, Carl
Earth and Planetary Astrophysics
We report on the discovery and spectroscopic confirmation of TOI-2458 b, a transiting mini-Neptune around an F-type star leaving the main-sequence with a mass of $M_\star=1.05 \pm 0.03$ M$_{\odot}$, a radius of $R_\star=1.31 \pm 0.03$ R$_{\odot}$, an effective temperature of $T_{\rm eff}=6005\pm50$ K, and a metallicity of $-0.10\pm0.05$ dex. By combining TESS photometry with high-resolution spectra acquired with the HARPS spectrograph, we found that the transiting planet has an orbital period of $\sim$3.74 days, a mass of $M_p=13.31\pm0.99$ M$_{\oplus}$ and a radius of $R_p=2.83\pm0.20$ R$_{\oplus}$. The host star TOI-2458 shows a short activity cycle of $\sim$54 days revealed in the HARPS S-index and H$α$ times series. We took the opportunity to investigate other F stars showing activity cycle periods comparable to that of TOI-2458 and found that they have shorter rotation periods than would be expected based on the gyrochronology predictions. In addition, we determined TOI-2458's stellar inclination angle to be $i_\star\,=\,10.6_{-10.6}^{+13.3}$ degrees. We discuss that both phenomena (fast stellar rotation and planet orbit inclination) could be explained by in situ formation of a hot Jupiter interior to TOI-2458 b. It is plausible that this hot Jupiter was recently engulfed by the star. Analysis of HARPS spectra has identified the presence of another planet with a period of $P\,=\,16.55\pm0.06$ days and a minimum mass of $M_p \sin i=10.22\pm1.90$ M$_{\oplus}$. Using dynamical stability analysis, we constrained the mass of this planet to the range $M_{c} \simeq (10, 25)$ M$_{\oplus}$.
title TOI-2458 b: A mini-Neptune consistent with in situ hot Jupiter formation
topic Earth and Planetary Astrophysics
url https://arxiv.org/abs/2409.17532