Accretion of planetary matter and the lithium problem in the 16 Cygni stellar system

Deal, M.; Richard, Olivier; Vauclair, S.

doi:10.1051/0004-6361/201526917

Cited by 37 publications

(47 citation statements)

References 44 publications

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“…The surface lithium abundance of WASP-133 A (A(Li) = 2.7) is significantly higher than other stars of similar age and effective temperature (A(Li) < 2.5, Sestito & Randich 2005). This is a counter-example of the general trend for planet host stars to be depleted in lithium compared to similar non-planet host stars (Maxted et al 2010;Gonzalez 2015;Deal et al 2015). Whether this anomaly is connected to the slow rotation of this star or some other factor is difficult to ascertain from the consideration of a single system.…”

Section: Discussionmentioning

confidence: 86%

Five transiting hot Jupiters discovered using WASP-South,Euler, and TRAPPIST: WASP-119 b, WASP-124 b, WASP-126 b, WASP-129 b, and WASP-133 b

Maxted

Anderson

Cameron

et al. 2016

A&A

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We have used photometry from the WASP-South instrument to identify 5 stars showing planet-like transits in their light curves. The planetary nature of the companions to these stars has been confirmed using photometry from the EulerCam instrument on the Swiss Euler 1.2-m telescope and the TRAPPIST telescope, and spectroscopy obtained with the CORALIE spectrograph. The planets discovered are hot Jupiter systems with orbital periods in the range 2.17 to 5.75 days, masses from 0.3 M Jup to 1.2 M Jup and with radii from 1 R Jup to 1.5 R Jup . These planets orbit bright stars (V = 11-13) with spectral types in the range F9 to G4. WASP-126 is the brightest planetary system in this sample and hosts a low-mass planet with a large radius (0.3 M Jup , 0.95 R Jup ), making it a good target for transmission spectroscopy. The high density of WASP-129 A suggests that it is a helium-rich star similar to HAT-P-11 A. WASP-133 A has an enhanced surface lithium abundance compared to other old G-type stars, particularly other planet host stars. These planetary systems are good targets for follow-up observations with ground-based and space-based facilities to study their atmospheric and dynamical properties. Key words. planetary systems IntroductionGround-based transit surveys such as WASP (Pollacco et al. 2008), HAT (Bakos et al. 2004), HAT-South (Bakos et al. 2013) and KELT (Pepper et al. 2008) have identified the majority of bright hot Jupiter planetary systems that have been studied in detail using observations with large ground-based telescopes and space-based instrumentation. Although space-based surveys such as Kepler-K2 (Howell et al. 2014), TESS (Ricker et al. 2015 and PLATO (Rauer et al. 2014) will produce much higher quality photometry than is possible from the ground, it is advantageous to identify as many planetary systems as possible in the areas of the sky that will be observed by these missions so that the observing strategy can be optimised. This was clearly demonstrated by the recent discovery that WASP-47 is a very rare example of a multiple-planet system containing a hot Jupiter (Becker et al. 2015;Neveu-VanMalle et al. 2016). This discovery was only possible because this known Full Tables 2 and 3 are only available at the CDS via anonymous ftp to cdsarc.u-strasbg.fr (130.79.128.5) or via http://cdsarc.u-strasbg.fr/viz-bin/qcat?J/A+A/591/A55 planetary system was prioritised for high-cadence observations with Kepler-K2. These high-cadence observations made it possible to detect the transit time variations produced by the gravitational interactions between the planets in this system. The discovery that WASP-47 is a multi-planet system also demonstrates that detailed obervations of apparently normal hot Jupiter systems continue to reveal unexpected properties of this diverse group of planetary systems.Here we present the discovery of 5 hot-Jupiter planetary systems in the southern hemisphere. Section 2 describes the observations we have obtained, Sect. 3 describes our analysis of the host stars, the stella...

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Section: Discussionmentioning

confidence: 86%

Five transiting hot Jupiters discovered using WASP-South,Euler, and TRAPPIST: WASP-119 b, WASP-124 b, WASP-126 b, WASP-129 b, and WASP-133 b

Maxted

Anderson

Cameron

et al. 2016

A&A

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“…Therefore, a first step would be to perform a thorough study of the impact of extra mixing on lithium abundances and inversion results for 16CygA. The case of 16CygB should be re-analysed afterwards, since it is well-known that this star shows even lower lithium abundances and is believed to have triggered thermohaline diffusion by accreting planetary matter (See Deal et al 2015). As such, combining spectroscopic and seismic constraints in this binary system may provide new insights on stellar modelling of solar-like stars.…”

Section: Resultsmentioning

confidence: 99%

In-depth study of 16CygB using inversion techniques

Buldgen

Salmon

Reese

et al. 2016

A&A

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Context. The 16Cyg binary system hosts the solar-like Kepler targets with the most stringent observational constraints. Indeed, we benefit from very high quality oscillation spectra, as well as spectroscopic and interferometric observations. Moreover, this system is particularly interesting since both stars are very similar in mass but the A component is orbited by a red dwarf, whereas the B component is orbited by a Jovian planet and thus could have formed a more complex planetary system. In our previous study, we showed that seismic inversions of integrated quantities could be used to constrain microscopic diffusion in the A component. In this study, we analyse the B component in the light of a more regularised inversion. Aims. We wish to analyse independently the B component of the 16Cyg binary system using the inversion of an indicator dedicated to analyse core conditions, denoted t u . Using this independent determination, we wish to analyse any differences between both stars due to the potential influence of planetary formation on stellar structure and/or their respective evolution. Methods. First, we recall the observational constraints for 16CygB and the method we used to generate reference stellar models of this star. We then describe how we improved the inversion and how this approach could be used for future targets with a sufficient number of observed frequencies. The inversion results were then used to analyse the differences between the A and B components. Results. The inversion of the t u indicator for 16CygB shows a disagreement with models including microscopic diffusion and sharing the chemical composition previously derived for 16CygA. We show that small changes in chemical composition are insufficient to solve the problem but that extra mixing can account for the differences seen between both stars. We use a parametric approach to analyse the impact of extra mixing in the form of turbulent diffusion on the behaviour of the t u values. We conclude on the necessity of further investigations using models with a physically motivated implementation of extra mixing processes including additional constraints to further improve the accuracy with which the fundamental parameters of this system are determined.

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“…It is even possible that the accretion mechanism would not lead to the desired Li enrichment, but to an additional destruction of lithium (see Deal et al 2015).…”

Section: Stellar Flaresmentioning

confidence: 99%

Lithium abundance and⁶Li/⁷Li ratio in the active giant HD 123351

Mott

Steffen

Caffau

et al. 2017

A&A

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Context. Current three-dimensional (3D) hydrodynamical model atmospheres together with detailed spectrum synthesis, accounting for departures from Local Thermodynamic Equilibrium (LTE), permit to derive reliable atomic and isotopic chemical abundances from high-resolution stellar spectra. Not much is known about the presence of the fragile 6 Li isotope in evolved solar-metallicity red giant branch (RGB) stars, not to mention its production in magnetically active targets like HD 123351. Aims. A detailed spectroscopic investigation of the lithium resonance doublet in HD 123351 in terms of both abundance and isotopic ratio is presented. From fits of the observed spectrum, taken at the Canada-France-Hawaii telescope, with synthetic line profiles based on 1D and 3D model atmospheres, we seek to estimate the abundance of the 6 Li isotope and to place constraints on its origin. Methods. We derive the lithium abundance A(Li) and the 6 Li/ 7 Li isotopic ratio by fitting different synthetic spectra to the Li-line region of a high-resolution CFHT spectrum (R=120 000, S/R=400). The synthetic spectra are computed with four different line lists, using in parallel 3D hydrodynamical CO 5 BOLD and 1D LHD model atmospheres and treating the line formation of the lithium components in non-LTE (NLTE). The fitting procedure is repeated with different assumptions and wavelength ranges to obtain a reasonable estimate of the involved uncertainties. Results. We find A(Li)= 1.69 ± 0.11 dex and 6 Li/ 7 Li = 8.0 ± 4.4% in 3D-NLTE, using the line list of Meléndez et al. (2012), updated with new atomic data for V i, which results in the best fit of the lithium line profile of HD 123351. Two other line lists lead to similar results but with inferior fit qualities. Conclusions. Our 2 σ detection of the 6 Li isotope is the result of a careful statistical analysis and the visual inspection of each achieved fit. Since the presence of a significant amount of 6 Li in the atmosphere of a cool evolved star is not expected in the framework of standard stellar evolution theory, non-standard, external lithium production mechanisms, possibly related to stellar activity or a recent accretion of rocky material, need to be invoked to explain the detection of 6 Li in HD 123351.

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Accretion of planetary matter and the lithium problem in the 16 Cygni stellar system

Cited by 37 publications

References 44 publications

Five transiting hot Jupiters discovered using WASP-South,Euler, and TRAPPIST: WASP-119 b, WASP-124 b, WASP-126 b, WASP-129 b, and WASP-133 b

Five transiting hot Jupiters discovered using WASP-South,Euler, and TRAPPIST: WASP-119 b, WASP-124 b, WASP-126 b, WASP-129 b, and WASP-133 b

In-depth study of 16CygB using inversion techniques

Lithium abundance and⁶Li/⁷Li ratio in the active giant HD 123351

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Accretion of planetary matter and the lithium problem in the 16 Cygni stellar system

Cited by 37 publications

References 44 publications

Five transiting hot Jupiters discovered using WASP-South,Euler, and TRAPPIST: WASP-119 b, WASP-124 b, WASP-126 b, WASP-129 b, and WASP-133 b

Five transiting hot Jupiters discovered using WASP-South,Euler, and TRAPPIST: WASP-119 b, WASP-124 b, WASP-126 b, WASP-129 b, and WASP-133 b

In-depth study of 16CygB using inversion techniques

Lithium abundance and6Li/7Li ratio in the active giant HD 123351

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Lithium abundance and⁶Li/⁷Li ratio in the active giant HD 123351