Discovery of a cool planet of 5.5 Earth masses through gravitational microlensing

Beaulieu, J. P.; Bennett, D. P.; Fouqué, P.; Williams, A.; Dominik, M.; Jørgensen, U. G.; Kubas, D.; Cassan, A.; Coutures, C.; Greenhill, J.; Hill, K. M.; Menzies, John; Sackett, Penny D.; Albrow, M. D.; Brillant, S.; Caldwell, J.; Calitz, J. J.; Cook, K. H.; Corrales, E.; Desort, M.; Dieters, S.; Dominis, D.; Donatowicz, J.; Hoffman, M.; Kane, Stephen R.; Marquette, J. B.; Martín, Roland; Meintjes, Pieter; Pollard, K. R.; Sahu, K. C.; Vinter, C.; Wambsganß, J.; Woller, K.; Horne, K.; Steele, I. A.; Bramich, D. M.; Burgdorf, M.; Snodgrass, C.; Bode, M. F.; Udalski, A.; Szymański, M. K.; Kubiak, M.; Więckowski, Tadeusz; Pietrzyński, G.; Soszyński, I.; Szewczyk, O.; Wyrzykowski, Ł.; Paczyński, B.; Abe, F.; Bond, I. A.; Britton, Tui; Gilmore, A. C.; Hearnshaw, John; Itow, Y.; Kamiya, K.; Kilmartin, P. M.; Korpela, A.; Masuda, K.; Matsubara, Y.; Motomura, M.; Muraki, Y.; Nakamura, Satoko; Okada, C.; Ohnishi, Koji; Rattenbury, N. J.; Sako, T.; Sato, S.; Sasaki, M.; Sekiguchi, T.; Sullivan, D. J.; Tristram, P. J.; Yock, P. C. M.; Yoshioka, T.

doi:10.1038/nature04441

Cited by 540 publications

(352 citation statements)

References 25 publications

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“…At larger separations, microlensing surveys similarly probe the frequency of planets as a function of their mass. That technique has detected four putative planets that are probably orbiting M dwarfs : OGLE235-MOA53b (m p ∼ 2.6 M Jup - Bond et al 2004;Bennett et al 2006), OGLE-05-071Lb (m p = 0.9 M Jup - Udalski et al 2005), OGLE-05-390Lb (m p = 0.017 M Jup - Beaulieu et al 2006), and OGLE-05-169Lb (m p = 0.04 M Jup - Gould et al 2006). Two of these four planets very likely have masses below 0.1 M Jup .…”

Section: Introductionmentioning

confidence: 99%

The HARPS search for southern extra-solar planets

Bonfils¹,

Mayor

Delfosse

et al. 2007

A&A

245

257

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AstrophysicsThe HARPS search for southern extra-solar planets X. A m sin i = 11 M ⊕ planet around the nearby spotted M dwarf GJ 674 , ABSTRACTContext. How planet properties depend on stellar mass is a key diagnostic of planetary formation mechanisms. Aims. This motivates planet searches around stars that are significantly more massive or less massive than the Sun, and in particular our radial velocity search for planets around very low-mass stars. Methods. As part of that program, we obtained measurements of GJ 674, an M 2.5 dwarf at d = 4.5 pc. These measurements have dispersion much in excess of their internal errors. An intensive observing campaign demonstrates that the excess dispersion is due to two superimposed coherent signals, with periods of 4.69 and 35 days. Results. These data are described well by a 2-planet Keplerian model where each planet has a ∼11 M ⊕ minimum mass. A careful analysis of the (low-level) magnetic activity of GJ 674, however, demonstrates that the 35-day period coincides with the stellar rotation period. This signal therefore originates in a spot inhomogeneity modulated by stellar rotation. The 4.69-day signal, on the other hand, is caused by a bona-fide planet, GJ 674b. Conclusions. Its detection adds to the growing number of Neptune-mass planets around M-dwarfs and reinforces the emerging conclusion that this mass domain is much more populated than the Jovian mass range. We discuss the metallicity distributions of M dwarf with and without planets and find a low 11% probability that they are drawn from the same parent distribution. Moreover, we find tentative evidence that the host star metallicity correlates with the total mass of their planetary system.

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Section: Introductionmentioning

confidence: 99%

The HARPS search for southern extra-solar planets

Bonfils¹,

Mayor

Delfosse

et al. 2007

A&A

245

257

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“…From microlensing events, it has been infered that many M-dwarfs have planets with masses smaller than Jupiter. However this inference is based on statistical arguments from a small number of events (Gaudi et al 2002 andBeaulieu et al 2006).…”

Section: Introductionmentioning

confidence: 99%

Search for cold debris disks around M-dwarfs

Lestrade¹,

Wyatt²,

Bertoldi³

et al. 2006

A&A

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Debris disks are believed to be related to planetesimals left over around stars after planet formation has ceased. The frequency of debris disks around M-dwarfs which account for 70% of the stars in the Galaxy is unknown while constrains have already been found for A-to K-type stars. We have searched for cold debris disks around 32 field M-dwarfs by conducting observations at λ = 850 µm with the SCUBA bolometer array camera at the JCMT and at λ = 1.2 mm with the MAMBO array at the IRAM 30-m telescopes. This is the first survey of a large sample of M-dwarfs conducted to provide statistical constraints on debris disks around this type of stars. We have detected a new debris disk around the M0.5 dwarf GJ 842.2 at λ = 850 µm, providing evidence for cold dust at large distance from this star (∼300 AU). By combining the results of our survey with the ones of Liu et al. (2004), we estimate for the first time the detection rate of cold debris disks around field M-dwarfs with ages between 20 and 200 Myr. This detection rate is 13 +6 −8 % and is consistent with the detection rate of cold debris disks (9-23%) around A-to K-type main sequence stars of the same age. This is an indication that cold disks may be equally prevalent across stellar spectral types.

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“…Besides three other current claims (Bond et al 2004;Udalski et al 2005;Gould et al 2006), microlensing led to the discovery of OGLE-2005-BLG-390Lb, the first cool rocky/icy exoplanet ever found (Beaulieu et al 2006;Dominik, Horne & Bode 2006).…”

Section: Detecting Planets By Microlensingmentioning

confidence: 99%

“…On 2005 August 10, PLANET/RoboNet, OGLE, and MOA observed a 15 % deviation to the light curve of microlensing event OGLE 2005-BLG-390 over about a day, which was shown to be due to a planet of about 5 Earth masses, orbiting a star with 0.2 M at 3 AU with a period of 10 years, where all these values are uncertain to a factor of two (Beaulieu et al 2006). An Earth-mass planet in the same spot would still have caused a signal amplitude of 3 % and duration of ∼ 12 h. If one assumes photometric uncertainties of ∼ 1 %, the discovery of such a planet would only have been possible if the standard follow-up sampling of 2 h had been replaced by high-cadence (10-15 min) anomaly monitoring triggered upon the first suspicion of a deviation.…”

Section: Discovering Planets Of Earth Mass and Belowmentioning

confidence: 99%

ARTEMiS (Automated Robotic Terrestrial Exoplanet Microlensing Search): A possible expert‐system based cooperative effort to hunt for planets of Earth mass and below

et al. 2008

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The technique of gravitational microlensing is currently unique in its ability to provide a sample of terrestrial exoplanets around both Galactic disk and bulge stars, allowing to measure their abundance and determine their distribution with respect to mass and orbital separation. Thus, valuable information for testing models of planet formation and orbital migration is gathered, constituting an important piece in the puzzle for the existence of life forms throughout the Universe. In order to achieve these goals in reasonable time, a well-coordinated effort involving a network of either 2m or 4×1m telescopes at each site is required. It could lead to the first detection of an Earth-mass planet outside the Solar system, and even planets less massive than Earth could be discovered. From April 2008, ARTEMiS (Automated Robotic Terrestrial Exoplanet Microlensing Search) is planned to provide a platform for a three-step strategy of survey, follow-up, and anomaly monitoring. As an expert system embedded in eSTAR (e-Science Telescopes for Astronomical Research), ARTEMiS will give advice for follow-up based on a priority algorithm that selects targets to be observed in order to maximize the expected number of planet detections, and will also alert on deviations from ordinary microlensing light curves by means of the SIGNALMEN anomaly detector. While the use of the VOEvent (Virtual Observatory Event) protocol allows a direct interaction with the telescopes that are part of the HTN (Heterogeneous Telescope Networks) consortium, additional interfaces provide means of communication with all existing microlensing campaigns that rely on human observers. The success of discovering a planet by microlensing critically depends on the availability of a telescope in a suitable location at the right time, which can mean within 10 min. To encourage follow-up observations, microlensing campaigns are therefore releasing photometric data in real time. On ongoing planetary anomalies, world-wide efforts are being undertaken to make sure that sufficient data are obtained, since there is no second chance. Real-time modelling offers the opportunity of live discovery of extra-solar planets, thereby providing "Science live to your home".

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Discovery of a cool planet of 5.5 Earth masses through gravitational microlensing

Cited by 540 publications

References 25 publications

The HARPS search for southern extra-solar planets

The HARPS search for southern extra-solar planets

Search for cold debris disks around M-dwarfs

ARTEMiS (Automated Robotic Terrestrial Exoplanet Microlensing Search): A possible expert‐system based cooperative effort to hunt for planets of Earth mass and below

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