226 research outputs found
Ruling out the orbital decay of the WASP-43b
We present 15 new transit observations of the exoplanet WASP-43b in the
,, and filters with the 1.0-m telescopes of Las Cumbres Observatory
Global Telescope (LCOGT) Network and the IAC80 telescope. We combine our 15 new
light curves with 52 others from literature, to analyze homogeneously all the
available transit light curves of this exoplanet. By extending the time span of
the monitoring of the transits to more than , and by analyzing the
individual mid-times of 72 transits, we study the proposed shortening of the
orbital period of WASP-43b. We estimate that the times of transit are
well-matched by our updated ephemeris equation, using a constant orbital
period. We estimate an orbital period change rate no larger than , which is fully consistent with a constant period. Based on
the timing analysis, we discard stellar tidal dissipation factors
. In addition, with the modelling of the transits we update the
system parameters: , and
, noticing a difference in the relative size of the planet
between optical and NIR bands.Comment: Accepted for publication in A
Spright: a probabilistic mass-density-radius relation for small planets
We present Spright, a Python package that implements a fast and lightweight
mass-density-radius relation for small planets. The relation represents the
joint planetary radius and bulk density probability distribution as a mean
posterior predictive distribution of an analytical three-component mixture
model. The analytical model, in turn, represents the probability for the
planetary bulk density as three generalised Student's t-distributions with
radius-dependent weights and means based on theoretical composition models. The
approach is based on Bayesian inference and aims to overcome the rigidity of
simple parametric mass-radius relations and the danger of overfitting of
non-parametric mass-radius relations.
The package includes a set of pre-trained and ready-to-use relations based on
two M dwarf catalogues, one FGK star catalogue, and two theoretical composition
models for water-rich planets. The inference of new models is easy and fast,
and the package includes a command line tool that allows for coding-free use of
the relation, including the creation of publication-quality plots.
Additionally, we study whether the current mass and radius observations of
small exoplanets support the presence of a population of water-rich planets
positioned between rocky planets and sub-Neptunes. The study is based on
Bayesian model comparison and shows somewhat strong support against the
existence of a water-world population around M dwarfs. However, the results of
the study depend on the chosen theoretical water-world density model. A more
conclusive result requires a larger sample of precisely characterised planets
and community consensus on a realistic water world interior structure and
atmospheric composition model.Comment: Accepted to MNRA
EPIC 219388192b - An Inhabitant of the Brown Dwarf Desert in the Ruprecht 147 Open Cluster
We report the discovery of EPIC 219388192b, a transiting brown dwarf in a 5.3 day orbit around a member star of Ruprecht 147, the oldest nearby open cluster association, which was photometrically monitored by K2 during its Campaign 7
Exoplanet Biosignatures: Observational Prospects
Exoplanet hunting efforts have revealed the prevalence of exotic worlds with
diverse properties, including Earth-sized bodies, which has fueled our endeavor
to search for life beyond the Solar System. Accumulating experiences in
astrophysical, chemical, and climatological characterization of uninhabitable
planets are paving the way to characterization of potentially habitable
planets. In this paper, we review our possibilities and limitations in
characterizing temperate terrestrial planets with future observational
capabilities through 2030s and beyond, as a basis of a broad range of
discussions on how to advance "astrobiology" with exoplanets. We discuss the
observability of not only the proposed biosignature candidates themselves, but
also of more general planetary properties that provide circumstantial evidence,
since the evaluation of any biosignature candidate relies on their context.
Characterization of temperate Earth-size planets in the coming years will focus
on those around nearby late-type stars. JWST and later 30 meter-class
ground-based telescopes will empower their chemical investigations.
Spectroscopic studies of potentially habitable planets around solar-type stars
will likely require a designated spacecraft mission for direct imaging,
leveraging technologies that are already being developed and tested as part of
the WFIRST mission. Successful initial characterization of a few nearby targets
will be an important touchstone toward a more detailed scrutiny and a larger
survey that are envisioned beyond 2030. The broad outlook this paper presents
may help develop new observational techniques to detect relevant features as
well as frameworks to diagnose planets based on the observables.Comment: part of a series of 5 review manuscripts of the NExSS Exoplanet
Biosgnatures Worksho
Proxima Centauri b is not a transiting exoplanet
We report Spitzer Space Telescope observations during predicted transits of
the exoplanet Proxima Centauri b. As the nearest terrestrial habitable-zone
planet we will ever discover, any potential transit of Proxima b would place
strong constraints on its radius, bulk density, and atmosphere. Subsequent
transmission spectroscopy and secondary-eclipse measurements could then probe
the atmospheric chemistry, physical processes, and orbit, including a search
for biosignatures. However, our photometric results rule out planetary transits
at the 200~ppm level at 4.5, yielding a 3 upper radius limit
of 0.4~R_\rm{\oplus} (Earth radii). Previous claims of possible transits from
optical ground- and space-based photometry were likely correlated noise in the
data from Proxima Centauri's frequent flaring. Follow-up observations should
focus on planetary radio emission, phase curves, and direct imaging. Our study
indicates dramatically reduced stellar activity at near-to-mid infrared
wavelengths, compared to the optical. Proxima b is an ideal target for
space-based infrared telescopes, if their instruments can be configured to
handle Proxima's brightness.Comment: 8 pages, 3 figures, 2 tables, accepted for publication in MNRA
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