<i>KEPLER</i>-445,<i>KEPLER</i>-446 AND THE OCCURRENCE OF COMPACT MULTIPLES ORBITING MID-M DWARF STARS

Muirhead, Philip S.; Mann, Andrew W.; Vanderburg, Andrew; Morton, Timothy; Kraus, Adam L.; Ireland, Michael; Swift, Jonathan J.; Feiden, Gregory A.; Gaidos, Eric; Gazak, J. Zachary

doi:10.1088/0004-637x/801/1/18

Cited by 115 publications

(139 citation statements)

References 115 publications

(124 reference statements)

Supporting

Mentioning

133

Contrasting

Order By: Relevance

“…Muirhead et al (2015) showed that a significant fraction (21 % 5 7 -+ ) of mid-M dwarfs host multiple planets within 10 days. Concerning K2-28, we could not find evidence of another transiting planet in our BLS analysis.…”

Section: Discussion and Summarymentioning

confidence: 99%

“…While K2-28 is faint in the optical, it is relatively bright in the NIR (m H =11.03±0.02 mag), and thus is likely within the reach of existing and planned NIR radial velocity instruments (e.g., IRD, CARMENES, SPIrou, HPF; Artigau et al 2014;Kotani et al 2014;Mahadevan et al 2014;Quirrenbach et al 2014), which could also reveal any non-transiting planets. K. Planets in single and multiple systems are shown in blue squares and red circles, respectively (Charbonneau et al 2009;Muirhead et al 2012Muirhead et al , 2015Berta-Thompson et al 2015). "Kepler-" is abbreviated as "K-" in this plot.…”

Section: Discussion and Summarymentioning

confidence: 99%

“…GJ 1214b is one of the most intensely observed exoplanets, and the first detailed atmospheric characterization of this intermediate-sized planet between Earth-and Neptune-like planets was enabled by the large transit depth and brightness of its host star (e.g., Charbonneau et al 2009;Bean et al 2010;Kreidberg et al 2014). However, both the census of small planets around mid-to-late M dwarfs (stars with effective temperatures of T 3400 eff  K) and the atmospheric characterization of these objects are still in their infancy; only five transiting systems (GJ 1214, GJ 1132, Kepler-42, Kepler-445, andKepler-446) have been reported to date around mid-to-late M dwarfs (Muirhead et al 2012(Muirhead et al , 2015Berta-Thompson et al 2015), and the latter three are too faint or the transit depths too shallow to permit intensive follow-up studies.…”

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

THEK2-ESPRINT PROJECT III: A CLOSE-IN SUPER-EARTH AROUND A METAL-RICH MID-M DWARF

Hirano

Fukui

Mann

et al. 2016

ApJ

Self Cite

View full text Add to dashboard Cite

We validate a R R 2.32 0.24 p =  Å planet on a close-in orbit (P=2.260455±0.000041 days) around K2-28 (EPIC206318379), a metal-rich M4-type dwarf in the Campaign 3 field of the K2 mission. Our follow-up observations included multi-band transit observations from the optical to the near-infrared, low-resolution spectroscopy, and high-resolution adaptive optics (AO) imaging. We perform a global fit to all of the observed transits using a Gaussian process-based method and show that the transit depths in all of the passbands adopted for the ground-based transit follow-ups (r z J H K , , , ,¢ ) are within ∼2σ of the K2 value. Based on a model of the background stellar population and the absence of nearby sources in our AO imaging, we estimate the probability that a background eclipsing binary could cause a false positive to be <2×10 −5 . We also show that K2-28 cannot have a physically associated companion of stellar type later than M4, based on the measurement of almost identical transit depths in multiple passbands. There is a low probability for an M4 dwarf companion ( 0.072 0.04 0.02 » -+), but even if this were the case, the size of K2-28b falls within the planetary regime. K2-28b has the same radius (within 1σ) and experiences irradiation from its host star similar to the well-studied GJ1214b. Given the relative brightness of K2-28 in the near-infrared (m 14.85 Kep = mag and m H =11.03 mag) and relatively deep transit (0.6%-0.7%), a comparison between the atmospheric properties of these two planets with future observations would be especially interesting.

show abstract

Section: Discussion and Summarymentioning

confidence: 99%

Section: Discussion and Summarymentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

THEK2-ESPRINT PROJECT III: A CLOSE-IN SUPER-EARTH AROUND A METAL-RICH MID-M DWARF

Hirano

Fukui

Mann

et al. 2016

ApJ

Self Cite

View full text Add to dashboard Cite

show abstract

“…Muirhead et al (2015) estimated that 21 % 5 7 -+ of mid-M dwarfs host multiple planets, all with orbital periods less than 10 days. Assuming a disk mass-tostellar mass ratio of 1%, these planets would account for nearly all of the non-hydrogen and helium disk mass, and Muirhead et al (2015) suggest that this may indicate a very high efficiency in the planet formation mechanism around M dwarfs and a lack of planets at large orbital periods around mid-M dwarfs. A study by Ballard & Johnson (2016) generated synthetic populations of exoplanets described by a range of planet multiplicity and mutual inclination for comparison to the Kepler M dwarf sample.…”

Section: Introductionmentioning

confidence: 99%

A Search for Additional Bodies in the GJ 1132 Planetary System from 21 Ground-based Transits and a 100-hr Spitzer Campaign

Dittmann

Irwin

Charbonneau

et al. 2017

View full text Add to dashboard Cite

We present the results of a search for additional bodies in the GJ 1132 system through two methods: photometric transits and transit timing variations of GJ 1132b. We collected 21 transit observations of GJ 1132b with the MEarth-South array. We obtained 100 near-continuous hours of observations with the Spitzer Space Telescope, including two transits of GJ 1132b and spanning 60% of the orbital phase of the maximum (6.9-day) period at which bodies coplanar with GJ 1132b would transit. We exclude transits of additional Mars-sized bodies, such as a second planet or a moon, with a confidence of 99.7%. We find that the planet-to-star radius ratio inferred from the MEarth and Spitzer light curves are discrepant at the 3.7s level, which we ascribe to the effects of starspots and faculae. When we combine the mass estimate of the star (obtained from its parallax and apparent K s band magnitude) with the stellar density inferred from our high-cadence Spitzer light curve (assuming zero eccentricity), we measure the stellar radius of GJ 1132 to be R 0.2105 0.0085 0.0102 -+  , and we refine the radius measurement of GJ 1132b to R 1.130 0.056  Å . Combined with HARPS RV measurements, we determine the density of GJ 1132b to be 6.2±2.0 g cm −3 . We refine the ephemeris of the system (improving the period determination by an order of magnitude) and find no evidence for transit timing variations, which would be expected if there was a second planet near an orbital resonance with GJ 1132b.

show abstract

“…We therefore conclude that the occurence is in the region of 20-30%. We extend our simulations to investigate whether we could detect Kepler-42 (Muirhead et al 2012) and TRAPPIST-1 (Gillon et al 2016). Both systems involve three Earth-sized planets at varying orbital periods:…”

Section: Retrieval Of Kepler-42b and Trappist-1bmentioning

confidence: 94%

First limits on the occurrence rate of short-period planets orbiting brown dwarfs

Triaud

Gillon

2016

Mon. Not. R. Astron. Soc.

View full text Add to dashboard Cite

Planet formation theories predict a large but still undetected population of short-period terrestrial planets orbiting brown dwarfs. Should specimens of this population be discovered transiting relatively bright and nearby brown dwarfs, the Jupiter-size and the low luminosity of their hosts would make them exquisite targets for detailed atmospheric characterisation with JWST and future ground-based facilities. The eventual discovery and detailed study of a significant sample of transiting terrestrial planets orbiting nearby brown dwarfs could prove to be useful not only for comparative exoplanetology but also for astrobiology, by bringing us key information on the physical requirements and timescale for the emergence of life.In this context, we present a search for transit-signals in archival time-series photometry acquired by the Spitzer Space Telescope for a sample of 44 nearby brown dwarfs. While these 44 targets were not particularly selected for their brightness, the high precision of their Spitzer light curves allows us to reach sensitivities below Earth-sized planets for 75% of the sample and down to Europa-sized planets on the brighter targets. We could not identify any unambiguous planetary signal. Instead, we could compute the first limits on the presence of planets on close-in orbits. We find that within a 1.28 day orbit, the occurrence rate of planets with a radius between 0.75 and 3.25 R ⊕ is η < 67 ± 1%. For planets with radii between 0.75 and 1.25 R ⊕ , we place a 95% confident upper limit of η < 87±3%. If we assume an occurrence rate of η = 27% for these planets with radii between 0.75 and 1.25 R ⊕ , as the discoveries of the Kepler-42b and TRAPPIST-1b systems would suggest, we estimate that 175 brown dwarfs need to be monitored in order to guarantee (95%) at least one detection.

show abstract

KEPLER-445,KEPLER-446 AND THE OCCURRENCE OF COMPACT MULTIPLES ORBITING MID-M DWARF STARS

Cited by 115 publications

References 115 publications

THEK2-ESPRINT PROJECT III: A CLOSE-IN SUPER-EARTH AROUND A METAL-RICH MID-M DWARF

THEK2-ESPRINT PROJECT III: A CLOSE-IN SUPER-EARTH AROUND A METAL-RICH MID-M DWARF

A Search for Additional Bodies in the GJ 1132 Planetary System from 21 Ground-based Transits and a 100-hr Spitzer Campaign

First limits on the occurrence rate of short-period planets orbiting brown dwarfs

Contact Info

Product

Resources

About