Two Young Planetary Systems around Field Stars with Ages between 20 and 320 Myr from TESS

Zhou, George; Quinn, Samuel N.; Irwin, Jonathan; Huang, Chelsea X.; Collins, Karen A.; Bouma, Luke G.; Khan, Lamisha; Landrigan, Anaka; Vanderburg, Andrew; Rodriguez, Joseph E.; Latham, David W.; Torres, Guillermo; Douglas, Stephanie T.; Bieryla, Allyson; Esquerdo, Gilbert A.; Berlind, P.; Calkins, M.; Buchhave, Lars A.; Charbonneau, David; Collins, Kevin I.; Kielkopf, John F.; Jensen, Eric L. N.; Tan, T. G.; Hart, Rhodes; Carter, Brad; Stockdale, C. J.; Ziegler, Carl; Law, Nicholas M.; Mann, Andrew W.; Howell, Steve B.; Matson, Rachel A.; Scott, Nicholas J.; Furlan, Elise; White, R. J.; Hellier, C.; Anderson, D. R.; West, R. G.; Ricker, G.; Vanderspek, R.; Seager, Sara; Jenkins, Jon M.; Winn, Joshua N.; Mireles, Ismael; Rowden, Pamela; Yahalomi, Daniel A.; Wohler, Bill; Brasseur, C. E.; Daylan, Tansu; Colón, Knicole D.

doi:10.3847/1538-3881/abba22

Cited by 57 publications

(58 citation statements)

References 124 publications

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“…Similarly, we also follow Zhou et al (2021) and measured the levels of core emission in the Ca II infrared triplet lines, finding equivalent widths of 0.36±0.01 Åfor TOI-1807 and 0.33±0.01 Åfor TOI-2076. Using the qualitative relationships provided in Žerjal et al (2017), these core emissions are consistent with stars with ages between 100 and 1000 Myr of age.…”

Section: Stellar Activitymentioning

confidence: 71%

“…All of the transiting planets detected around pre-main-sequence stars appear to have anomalously large sizes when compared to exoplanets around field stars, while planets with ages of 0.5-1Gyr appear to have sizes that are more consistent with those of the field population (see, e.g., Mann et al 2017;David et al 2019;Livingston et al 2019;Bouma et al 2020;Tofflemire et al 2021, and references therein). It remains to be seen whether this size-age correlation is astrophysical or due to lower detection efficiencies for young stars (e.g., Zhou et al 2021). The TOI-1807 and TOI-2076 systems exist at an intermediate age (0.1-0.5 Gyr) when the most dramatic effects of photoevaporation are expected to be complete (Jackson et al 2012), though mass loss may proceed further over gigayear timescales for some planets through either core cooling (Gupta & Schlichting 2020) or photoevaporation (Rogers & Owen 2021).…”

Section: Discussionmentioning

confidence: 99%

“…Using the calibrations provided in Zhou et al (2021), we measured equivalent widths for the core emission in the Ca II H&K lines and convert them to the Mount Wilson Observatory HK Project (Vaughan et al 1978;Wilson 1978;Duncan et al 1991;Baliunas et al 1995 , respectively. Like X-ray, the level of Ca II core emission is related to the rotation, and therefore age, of the target stars.…”

Section: Stellar Activitymentioning

confidence: 99%

“…Both TOI-1807 and TOI-2076 exhibit significant lithium absorption features. We measured Li 6708 Åequivalent widths for these target stars using the high-resolution observations from the TRES facility, as per the techniques described in Zhou et al (2021), with equivalent widths of 0.0841±0.0070Åand 0.0703± 0.0071Åfor TOI-1807 and 2076, respectively.…”

Section: Lithium Absorptionmentioning

confidence: 99%

“…For example, the THYME survey has identified several planets in known young associations spanning a diversity of Galactic environments, such as the Tucana-Horologium and Ursa Major moving groups (Newton et al 2019;Mann et al 2020), the Scorpius-Centaurus OB association (Rizzuto et al 2020), the Pisces-Eridanus stream (Newton et al 2021), and even a previously unknown association (Tofflemire et al 2021). Other searches of TESS data have revealed planets orbiting young stars in the IC 2602 cluster (Bouma et al 2020) and in the field (Zhou et al 2021).…”

mentioning

confidence: 99%

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TOI-2076 and TOI-1807: Two Young, Comoving Planetary Systems within 50 pc Identified by TESS that are Ideal Candidates for Further Follow Up

Hedges

Hughes

Zhou

et al. 2021

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We report the discovery of two planetary systems around comoving stars: TOI-2076 (TIC 27491137) and TOI-1807 (TIC 180695581). TOI-2076 is a nearby (41.9 pc) multiplanetary system orbiting a young (204±50 Myr), bright (K=7.115 in TIC v8.1) start. TOI-1807 hosts a single transiting planet and is similarly nearby (42.58 pc), similarly young (180±40 Myr), and bright. Both targets exhibit significant, periodic variability due to starspots, characteristic of their young ages. Using photometric data collected by TESS we identify three transiting planets around TOI-2076 with radii of R b =3.3±0.04 R ⊕ , R c =4.4±0.05 R ⊕ , and R d =4.1±0.07 R ⊕ . Planet TOI-2076b has a period of P b =10.356 days. For both TOI-2076c and d, TESS observed only two transits, separated

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Section: Stellar Activitymentioning

confidence: 71%

Section: Discussionmentioning

confidence: 99%

Section: Stellar Activitymentioning

confidence: 99%

Section: Lithium Absorptionmentioning

confidence: 99%

mentioning

confidence: 99%

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TOI-2076 and TOI-1807: Two Young, Comoving Planetary Systems within 50 pc Identified by TESS that are Ideal Candidates for Further Follow Up

Hedges

Hughes

Zhou

et al. 2021

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The GAPS Programme at TNG

Carleo

Desidera

Nardiello

et al. 2021

A&A

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Context. Young stars and multi-planet systems are two types of primary objects that allow us to study, understand, and constrain planetary formation and evolution theories. Aims. We validate the physical nature of two Neptune-sized planets transiting TOI-942 (TYC 5909-319-1), a previously unacknowledged young star (50−20+30 Myr) observed by the TESS space mission in Sector 5. Methods. Thanks to a comprehensive stellar characterization, TESS light curve modeling and precise radial-velocity measurements, we validated the planetary nature of the TESS candidate and detected an additional transiting planet in the system on a larger orbit. Results. From photometric and spectroscopic observations we performed an exhaustive stellar characterization and derived the main stellar parameters. TOI-942 is a relatively active K2.5V star (log R′HK = −4.17 ± 0.01) with rotation period Prot = 3.39 ± 0.01 days, a projected rotation velocity v sin i⋆ = 13.8 ± 0.5 km s−1, and a radius of ~0.9 R⊙. We found that the inner planet, TOI-942 b, has an orbital period Pb = 4.3263 ± 0.0011 days, a radius Rb = 4.242−0.313+0.376 R⊕, and a mass upper limit of 16 M⊕ at 1σ confidence level. The outer planet, TOI-942 c, has an orbital period Pc = 10.1605−0.0053+0.0056 days, a radius Rc = 4.793−0.351+0.410 R⊕, and a mass upper limit of 37 M⊕ at 1σ confidence level.

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Constraints on the mass and on the atmospheric composition and evolution of the low-density young planet DS Tucanae A b

Benatti

Damasso

Borsa

et al. 2021

A&A

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Context. Observations of young close-in exoplanets are providing initial indications for the characteristics of the population and clues to the early stages of their evolution. Transiting planets at young ages are also key benchmarks for our understanding of planetary evolution via the verification of atmospheric escape models. Aims. We performed radial velocity (RV) monitoring of the 40 Myr old star DS Tuc A with HARPS at the ESO-3.6 m to determine the planetary mass of its 8.14-day planet, which was first revealed by the NASA TESS satellite. We also observed two planetary transits with HARPS and ESPRESSO at ESO-VLT to measure the Rossiter-McLaughlin (RM) effect and characterise the planetary atmosphere. We measured the high-energy emission of the host with XMM-Newton observations to investigate models for atmospheric evaporation. Methods. We employed a Gaussian Processes (GP) regression to model the high level of the stellar activity, which is more than 40 times larger than the expected RV planetary signal. GPs were also used to correct the stellar contribution to the RV signal of the RM effect. We extracted the transmission spectrum of DS Tuc A b from the ESPRESSO data and searched for atmospheric elements and molecules either by single-line retrieval and by performing cross-correlation with a set of theoretical templates. Through a set of simulations, we evaluated different scenarios for the atmospheric photo-evaporation of the planet induced by the strong XUV stellar irradiation. Results. While the stellar activity prevented us from obtaining a clear detection of the planetary signal from the RVs, we set a robust mass upper limit of 14.4 M⊕ for DS Tuc A b. We also confirm that the planetary system is almost (but not perfectly) aligned. The strong level of stellar activity hampers the detection of any atmospheric compounds, which is in line with other studies presented in the literature. The expected evolution of DS Tuc A b from our grid of models indicates that the planetary radius after the photo-evaporation phase will be 1.8–2.0 R⊕, falling within the Fulton gap. Conclusions. The comparison of the available parameters of known young transiting planets with the distribution of their mature counterpart confirms that the former are characterised by a low density, with DS Tuc A b being one of the less dense. A clear determination of their distribution is still affected by the lack of a robust mass measurement, particularly for planets younger than ~100 Myr.

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Two Young Planetary Systems around Field Stars with Ages between 20 and 320 Myr from TESS

Cited by 57 publications

References 124 publications

TOI-2076 and TOI-1807: Two Young, Comoving Planetary Systems within 50 pc Identified by TESS that are Ideal Candidates for Further Follow Up

TOI-2076 and TOI-1807: Two Young, Comoving Planetary Systems within 50 pc Identified by TESS that are Ideal Candidates for Further Follow Up

The GAPS Programme at TNG

Constraints on the mass and on the atmospheric composition and evolution of the low-density young planet DS Tucanae A b

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