Chromatic transit light curves of disintegrating rocky planets

Ridden-Harper, Andrew; Keller, Christoph U.; Min, M.; Lieshout, R. Van; Snellen, I. A. G.

doi:10.1051/0004-6361/201731947

Cited by 11 publications

(8 citation statements)

References 36 publications

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“…However, obviously if one surveys a large number of stars, then the odds of seeing a few such systems is non-negligible. Since such planets may have lost most of their mass their observations open a unique window into planetary interiors and their chemical composition [63,64].…”

Section: Discussionmentioning

confidence: 99%

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Extrasolar enigmas: from disintegrating exoplanets to exoasteroids

Budaj,

Kabath,

Palle

2020

Preprint

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Thousands of transiting exoplanets have been discovered to date, thanks in great part to the Kepler space mission. As in all populations, and certainly in the case of exoplanets, one finds unique objects with distinct characteristics. Here we will describe the properties and behaviour of a small group of 'disintegrating' exoplanets discovered over the last few years (KIC 12557548b, K2-22b, and others). They evaporate, lose mass unraveling their naked cores, produce spectacular dusty comet-like tails, and feature highly variable asymmetric transits. Apart from these exoplanets, there is observational evidence for even smaller 'exo-'objects orbiting other stars: exoasteroids and exocomets. Most probably, such objects are also behind the mystery of Boyajian's star. Ongoing and upcoming space missions such as TESS and PLATO will hopefully discover more objects of this kind, and a new era of the exploration of small extrasolar systems bodies will be upon us.

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Section: Discussionmentioning

confidence: 99%

“…Recent 3D models of the dust dynamics including the sublimation and 3D radiative transfer pointed out the possibility that the tail may be optically thick. In this case the transit depth might be constant with the wavelength even for smaller particles and mass loss rates may reach 80 Earth masses per Gyr [64].…”

Section: Particle Size and Chemical Compositionmentioning

confidence: 99%

Extrasolar enigmas: from disintegrating exoplanets to exoasteroids

Budaj,

Kabath,

Palle

2020

Preprint

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“…A particular system of interest, due to its evolved age, is RZ Psc, studied by Kennedy et al (2017), which is a Sun-like star exhibiting transits of dust clumps, that could originate from an asteroid belt analog of the solar system. Other intriguing transits include disintegrating planets, which have regular periods but varying transit depths due to the loss of planetary material (Rappaport 2012;van Lieshout & Rappaport 2018;Ridden-Harper et al 2018).…”

Section: Introductionmentioning

confidence: 99%

An Asymmetric Eclipse Seen toward the Pre-main-sequence Binary System V928 Tau

Dam

Kenworthy

Mamajek

et al. 2020

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K2 observations of the weak-lined T Tauri binary V928 Tau A and B show the detection of a single, asymmetric eclipse, which may be due to a previously unknown substellar companion eclipsing one component of the binary with an orbital period >66 days. Over an interval of about 9 hr, one component of the binary dims by around 60%, returning to its normal brightness about 5 hr later. From modeling of the eclipse shape, we find evidence that the eclipsing companion may be surrounded by a disk or a vast ring system. The modeled disk has a radius of 0.9923±0.0005 R * , with an inclination of 56°.78±0°. 03, a tilt of 41°.22±0°. 05, an impact parameter of −0.2506±0.0002 R * , and an opacity of 1.00. The occulting disk must also move at a transverse velocity of 6.637±0.002 R * day −1 , which, depending on whether it orbits V928 Tau A or B, corresponds to approximately 73.53 or 69.26 km s −1. A search in ground-based archival data reveals additional dimming events, some of which suggest periodicity, but no unambiguous period associated with the eclipse observed by K2. We present a new epoch of astrometry that is used to further refine the orbit of the binary, presenting a new lower bound of 67 yr, and constraints on the possible orbital periods of the eclipsing companion. The binary is also separated by 18″ (∼2250 au) from the lower-mass CFHT-BD-Tau 7, which is likely associated with V928 Tau A and B. We also present new high-dispersion optical spectroscopy that we use to characterize the unresolved stellar binary.

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“…The composition of the dust likely reflects the composition of the planets, making them excellent targets to study their surface geology. For instance, mass loss and dust composition can be constrained by comparing dust-tail models to transit light curves (Rappaport et al 2012(Rappaport et al , 2014Brogi et al 2012;Budaj 2013;van Lieshout et al 2014;Sanchis-Ojeda et al 2015;van Lieshout et al 2016;Ridden-Harper et al 2018;Schlawin et al 2018) and wavelength-dependent dust extinction models to spectrophotometric observations (e.g. Croll et al 2014;Murgas 2013;Bochinski et al 2015;Schlawin et al 2016;Alonso et al 2016).…”

Section: Introductionmentioning

confidence: 99%

Search for gas from the disintegrating rocky exoplanet K2-22b

Ridden-Harper

Snellen

Keller

et al. 2019

A&A

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Context. The red dwarf star K2-22 is transited every 9.14 hours by an object which is best explained by being a disintegrating rocky exoplanet featuring a variable comet-like dust tail. While the dust is thought to dominate the transit light curve, gas is also expected to be present, either from being directly evaporated off the planet or by being produced by the sublimation of dust particles in the tail. Aims. Both ionized calcium and sodium have large cross-sections, and although present at low abundance, exhibit the strongest atomic absorption features in comets. We therefore also identify these species as the most promising tracers of circumplanetary gas in evaporating rocky exoplanets and search for them in the tail of K2-22 b to constrain the gas-loss and sublimation processes in this enigmatic object. Methods. We observed four transits of K2-22 b with X-shooter on the Very Large Telescope operated by ESO to obtain time series of intermediate-resolution (R ∼ 11400) spectra. Our analysis focussed on the two sodium D lines (588.995 nm and 589.592 nm) and the Ca + triplet (849.802 nm, 854.209 nm, and 866.214 nm). The stellar calcium and sodium absorption was removed using the out-oftransit spectra. We searched for planet-related absorption in the velocity rest frame of the planet, which changes from approximately −66 to +66 km s −1 during the transit. Results. Since K2-22 b exhibits highly variable transit depths, we analysed the individual nights and their average. By injecting signals we reached 5σ upper limits on the individual nights that range from 11% -13% and 1.7% -2.0% for the sodium and ionized calcium absorption of the tail, respectively. Night 1 was contaminated by its companion star so we considered weighted averages with and without Night 1 and quote conservative 5σ limits without Night 1 of 9% and 1.4%, respectively. Assuming their mass fractions to be similar to those in the Earth's crust, these limits correspond to scenarios in which 0.04% and 35% of the transiting dust is sublimated and observed as absorbing gas. However, this assumes the gas to be co-moving with the planet. We show that for the high irradiation environment of K2-22 b, sodium and ionized calcium could be quickly accelerated to 100s of km s −1 owing to radiation pressure and entrainment by the stellar wind, making these species much more difficult to detect. No evidence for such possibly broad and blue-shifted signals are seen in our data. Conclusions. Future observations aimed at observing circumplanetary gas should take into account the possible broad and blue-shifted velocity field of atomic and ionized species.

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Chromatic transit light curves of disintegrating rocky planets

Cited by 11 publications

References 36 publications

Extrasolar enigmas: from disintegrating exoplanets to exoasteroids

Extrasolar enigmas: from disintegrating exoplanets to exoasteroids

An Asymmetric Eclipse Seen toward the Pre-main-sequence Binary System V928 Tau

Search for gas from the disintegrating rocky exoplanet K2-22b

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