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601. K2 new planetary and EB candidates
ID:
ivo://CDS.VizieR/J/A+A/594/A100
Title:
K2 new planetary and EB candidates
Short Name:
J/A+A/594/A100
Date:
21 Oct 2021
Publisher:
CDS
Description:
With only two functional reaction wheels, Kepler cannot maintain stable pointing at its original target field and has entered a new mode of observation called K2. We describe a new pipeline to reduce K2 pixel files into light curves that are later searched for transit like features. Our method is based on many years of experience in planet hunting for the CoRoT mission. Owing to the unstable pointing, K2 light curves present systematics that are correlated with the target position in the ccd. Therefore, our pipeline also includes a decorrelation of this systematic noise. Our pipeline is optimised for bright stars for which spectroscopic follow-up is possible. We achieve a maximum precision on 6 hours of 6 ppm. The decorrelated light curves are searched for transits with an adapted version of the CoRoT alarm pipeline. We present 172 planetary candidates and 327 eclipsing binary candidates from campaigns 1, 2, 3, 4, 5, and 6 of K2. Both the planetary candidates and eclipsing binary candidates lists are made public to promote follow-up studies. The light curves will also be available to the community.
602. Known LT dwarfs in the Gaia DR1
ID:
ivo://CDS.VizieR/J/MNRAS/469/401
Title:
Known LT dwarfs in the Gaia DR1
Short Name:
J/MNRAS/469/401
Date:
21 Oct 2021
Publisher:
CDS
Description:
We identify and investigate known ultracool stars and brown dwarfs that are being observed or indirectly constrained by the Gaia mission. These objects will be the core of the Gaia ultracool dwarf sample composed of all dwarfs later than M7 that Gaia will provide direct or indirect information on. We match known L and T dwarfs to the Gaia first data release, the Two Micron All Sky Survey and the Wide-field Infrared Survey Explorer AllWISE survey and examine the Gaia and infrared colours, along with proper motions, to improve spectral typing, identify outliers and find mismatches. There are 321 L and T dwarfs observed directly in the Gaia first data release, of which 10 are later than L7. This represents 45 per cent of all the known LT dwarfs with estimated GaiaG magnitudes brighter than 20.3mag. We determine proper motions for the 321 objects from Gaia and the Two Micron All Sky Survey positions. Combining the Gaia and infrared magnitudes provides useful diagnostic diagrams for the determination of L and T dwarf physical parameters. We then search the Tycho-Gaia astrometric solution, Gaia first data release subset, to find any objects with common proper motions to known L and T dwarfs and a high probability of being related. We find 15 new candidate common proper motion systems.
603. KOINet. Study of exoplanet systems via TTVs
ID:
ivo://CDS.VizieR/J/A+A/615/A79
Title:
KOINet. Study of exoplanet systems via TTVs
Short Name:
J/A+A/615/A79
Date:
21 Oct 2021
Publisher:
CDS
Description:
During its four years of photometric observations, the Kepler space telescope detected thousands of exoplanets and exoplanet candidates. One of Kepler's greatest heritages has been the confirmation and characterization of hundreds of multi-planet systems via transit timing variations (TTVs). However, there are many interesting candidate systems displaying TTVs on such long timescales that the existing Kepler observations are of insufficient length to confirm and characterize them by means of this technique. To continue with Kepler's unique work, we have organized the "Kepler Object of Interest Network" (KOINet), a multi-site network formed of several telescopes located throughout America, Europe, and Asia. The goals of KOINet are to complete the TTV curves of systems where Kepler did not cover the interaction timescales well, to dynamically prove that some candidates are true planets (or not), to dynamically measure the masses and bulk densities of some planets, to find evidence for non-transiting planets in some of the systems, to extend Kepler's baseline adding new data with the main purpose of improving current models of TTVs, and to build a platform that can observe almost anywhere on the northern hemisphere, at almost any time. KOINet has been operational since March 2014. Here we show some promising first results obtained from analyzing seven primary transits of KOI-0410.01, KOI-0525.01, KOI-0760.01, and KOI-0902.01, in addition to the Kepler data acquired during the first and second observing seasons of KOINet. While carefully choosing the targets we set demanding constraints on timing precision (at least 1 min) and photometric precision (as good as one part per thousand) that were achieved by means of our observing strategies and data analysis techniques. For KOI-0410.01, new transit data revealed a turnover of its TTVs. We carried out an in-depth study of the system, which is identified in the NASA Data Validation Report as a false positive. Among others, we investigated a gravitationally bound hierarchical triple star system and a planet-star system. While the simultaneous transit fitting of ground- and space-based data allowed for a planet solution, we could not fully reject the three-star scenario. New data, already scheduled in the upcoming 2018 observing season, will set tighter constraints on the nature of the system.
604. KOI-1257 photometric and velocimetric data
ID:
ivo://CDS.VizieR/J/A+A/571/A37
Title:
KOI-1257 photometric and velocimetric data
Short Name:
J/A+A/571/A37
Date:
21 Oct 2021
Publisher:
CDS
Description:
In this paper we report a new transiting warm giant planet: KOI-1257b. It was first detected in photometry as a planet-candidate by the Kepler space telescope and then validated thanks to a radial velocity follow-up with the SOPHIE spectrograph. It orbits its host star with a period of 86.647661d+/-3s and a high eccentricity of 0.772+/-0.045. The planet transits the main star of a metal-rich, relatively old binary system with stars of mass of 0.99+/-0.05M_{sun}_ and 0.70+/-0.07M_{sun}_ for the primary and secondary, respectively. This binary system is constrained thanks to a self-consistent modelling of the Kepler transit light curve, the SOPHIE radial velocities, line bisector and full-width half maximum (FWHM) variations, and the spectral energy distribution. However, future observations are needed to confirm it. The PASTIS fully-Bayesian software was used to validate the nature of the planet and to determine which star of the binary system is the transit host. By accounting for the dilution from the binary both in photometry and in radial velocity, we find that the planet has a mass of 1.45+/-0.35M_jup_, and a radius of 0.94+/-0.12R_jup_, and thus a bulk density of 2.1+/-1.2g/cm^3^. The planet has an equilibrium temperature of 511+/-50K, making it one of the few known members of the warm-Jupiter population. The HARPS-N spectrograph was also used to observe a transit of KOI-1257b, simultaneously with a joint amateur and professional photometric follow-up, with the aim of constraining the orbital obliquity of the planet. However, the Rossiter-McLaughlin effect was not clearly detected, resulting in poor constraints on the orbital obliquity of the planet.
605. KOIs companions from high-resolution imaging
ID:
ivo://CDS.VizieR/J/AJ/153/117
Title:
KOIs companions from high-resolution imaging
Short Name:
J/AJ/153/117
Date:
21 Oct 2021
Publisher:
CDS
Description:
We report on 176 close (<2'') stellar companions detected with high-resolution imaging near 170 hosts of Kepler Objects of Interest (KOIs). These Kepler targets were prioritized for imaging follow-up based on the presence of small planets, so most of the KOIs in these systems (176 out of 204) have nominal radii <6R_{Earth}_. Each KOI in our sample was observed in at least two filters with adaptive optics, speckle imaging, lucky imaging, or the Hubble Space Telescope. Multi-filter photometry provides color information on the companions, allowing us to constrain their stellar properties and assess the probability that the companions are physically bound. We find that 60%-80% of companions within 1'' are bound, and the bound fraction is >90% for companions within 0.5''; the bound fraction decreases with increasing angular separation. This picture is consistent with simulations of the binary and background stellar populations in the Kepler field. We also reassess the planet radii in these systems, converting the observed differential magnitudes to a contamination in the Kepler bandpass and calculating the planet radius correction factor, X_R_=R_p_(true)/R_p_(single). Under the assumption that planets in bound binaries are equally likely to orbit the primary or secondary, we find a mean radius correction factor for planets in stellar multiples of X_R_=1.65. If stellar multiplicity in the Kepler field is similar to the solar neighborhood, then nearly half of all Kepler planets may have radii underestimated by an average of 65%, unless vetted using high-resolution imaging or spectroscopy.
606. KOI-676 transits for planets b and c
ID:
ivo://CDS.VizieR/J/A+A/564/A33
Title:
KOI-676 transits for planets b and c
Short Name:
J/A+A/564/A33
Date:
21 Oct 2021
Publisher:
CDS
Description:
We report the detection and characterization of two short-period, Neptune-sized planets around the active host star Kepler-210. The host star's parameters derived from those planets are (a) mutually inconsistent and (b) do not conform to the expected host star parameters. We furthermore report the detection of transit timing variations (TTVs) in the O-C diagrams for both planets. We explore various scenarios that explain and resolve those discrepancies. A simple scenario consistent with all data appears to be one that attributes substantial eccentricities to the inner short-period planets and that interprets the TTVs as due to the action of another, somewhat longer period planet. To substantiate our suggestions, we present the results of N-body simulations that modeled the TTVs and that checked the stability of the Kepler-210 system.
607. K2 planetary systems orbiting low-mass stars
ID:
ivo://CDS.VizieR/J/AJ/154/207
Title:
K2 planetary systems orbiting low-mass stars
Short Name:
J/AJ/154/207
Date:
21 Oct 2021
Publisher:
CDS
Description:
We recently used near-infrared spectroscopy to improve the characterization of 76 low-mass stars around which K2 had detected 79 candidate transiting planets. 29 of these worlds were new discoveries that had not previously been published. We calculate the false positive probabilities that the transit-like signals are actually caused by non-planetary astrophysical phenomena and reject five new transit-like events and three previously reported events as false positives. We also statistically validate 17 planets (7 of which were previously unpublished), confirm the earlier validation of 22 planets, and announce 17 newly discovered planet candidates. Revising the properties of the associated planet candidates based on the updated host star characteristics and refitting the transit photometry, we find that our sample contains 21 planets or planet candidates with radii smaller than 1.25 R_{Earth}_, 18 super-Earths (1.25-2 R_{Earth}_), 21 small Neptunes (2-4 R_{Earth}_), three large Neptunes (4-6 R_{Earth}_), and eight giant planets (>6 R_{Earth}_). Most of these planets are highly irradiated, but EPIC 206209135.04 (K2-72e, 1.29_-0.13_^+0.14^ R_{Earth}_), EPIC 211988320.01 (R_p_=2.86_-0.15_^+0.16^ R_{Earth}_), and EPIC 212690867.01 (2.20_-0.18_^+0.19^ R_{Earth}_) orbit within optimistic habitable zone boundaries set by the "recent Venus" inner limit and the "early Mars" outer limit. In total, our planet sample includes eight moderately irradiated 1.5-3 R_{Earth}_ planet candidates (F_p_~<20 F_{Earth}_) orbiting brighter stars (Ks<11) that are well-suited for atmospheric investigations with the Hubble, Spitzer, and/or James Webb Space Telescopes. Five validated planets orbit relatively bright stars (Kp<12.5) and are expected to yield radial velocity semi-amplitudes of at least 2 m/s. Accordingly, they are possible targets for radial velocity mass measurement with current facilities or the upcoming generation of red optical and near-infrared high-precision RV spectrographs.
608. KPNO lunar occultation summary
ID:
ivo://CDS.VizieR/J/AJ/141/10
Title:
KPNO lunar occultation summary
Short Name:
J/AJ/141/10
Date:
21 Oct 2021
Publisher:
CDS
Description:
The results for 251 lunar occultation events recorded at Kitt Peak National Observatory are presented, including 20 observations of known or suspected double stars and five measurements of stars with resolved angular diameters.
609. K2-106 radial velocities measurements
ID:
ivo://CDS.VizieR/J/A+A/608/A93
Title:
K2-106 radial velocities measurements
Short Name:
J/A+A/608/A93
Date:
21 Oct 2021
Publisher:
CDS
Description:
Planets in the mass range from 2 to 15M_{Erath}_ are very diverse. Some of them have low densities, while others are very dense. By measuring the masses and radii, the mean densities, structure, and composition of the planets are constrained. These parameters also give us important information about their formation and evolution, and about possible processes for atmospheric loss. We determined the masses, radii, and mean densities for the two transiting planets orbiting K2-106. The inner planet has an ultra-short period of 0.57 days. The period of the outer planet is 13.3 days.
610. K2 rotation periods for 65 Hyades members
ID:
ivo://CDS.VizieR/J/ApJ/822/47
Title:
K2 rotation periods for 65 Hyades members
Short Name:
J/ApJ/822/47
Date:
21 Oct 2021
Publisher:
CDS
Description:
As the closest open cluster to the Sun, the Hyades is an important benchmark for many stellar properties, but its members are also scattered widely over the sky. Previous studies of stellar rotation in the Hyades relied on targeted observations of single stars or data from shallower all-sky variability surveys. The re-purposed Kepler mission, K2, is the first opportunity to measure rotation periods (P_rot_) for many Hyads simultaneously while also being sensitive to fully convective M dwarf members. We analyze K2 data for 65 Hyads and present P_rot_ values for 48. Thirty-seven of these are new measurements, including the first Prot measurements for fully convective Hyads. For 9 of the 11 stars with P_rot_ in the literature and this work, the measurements are consistent; we attribute the two discrepant cases to spot evolution. Nearly all stars with masses <~0.3M_{sun}_ are rapidly rotating, indicating a change in rotation properties at the boundary to full convection. When confirmed and candidate binaries are removed from the mass-period plane, only three rapid rotators with masses >~0.3M_{sun}_ remain. This is in contrast to previous results showing that the single-valued mass-period sequence for ~600Myr old stars ends at ~0.65M_{sun}_ when binaries are included. We also find that models of rotational evolution predict faster rotation than is actually observed at ~600Myr for stars <~0.9M_{sun}. The dearth of single rapid rotators more massive than ~0.3M_{sun}_ indicates that magnetic braking is more efficient than previously thought, and that age-rotation studies must account for multiplicity.

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