Properties of Central Caustics in Planetary Microlensing

Chung, Sun-Ju; Han, Cheongho; Park, Byeong-Gon; Kim, Doeon; Kang, Sangjun; Ryu, Yoon-Hyun; Kim, Kang Min; Jeon, Young‐Beom; Lee, Dong‐Wook; Chang, Kyongae; Lee, Woo-Baik; Kang, Young Hwan

doi:10.1086/432048

Cited by 126 publications

(99 citation statements)

References 33 publications

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“…This channel led to most of the planets published to date (Zhu et al 2014), but its sensitivity drops for planets with large s. The size of central caustic is w = (4 q)/((s − s −1 ) 2 ) (Chung et al 2005) and for OGLE-2008-BLG-092, it would result in w = 3.8 × 10 −5 if the secondary star were not present. Such small caustics cannot be detected by current microlensing experiments because the signal is smeared by the much larger source (Chung et al 2005). Second, the planet can be revealed if the source approaches a resonant caustic, which is large and forms if s ≈ 1.…”

Section: Prospects For Detecting Similar Planetsmentioning

confidence: 99%

Triple Microlens Ogle-2008-BLG-092l: Binary Stellar System With a Circumprimary Uranus-Type Planet

Poleski

Skowron

Udalski

et al. 2014

ApJ

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102

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We present the gravitational microlensing discovery of a 4 M Uranus planet that orbits a 0.7 M star at ≈18 AU. This is the first known analog of Uranus. Similar planets, i.e., cold ice giants, are inaccessible to either radial velocity or transit methods because of the long orbital periods, while low reflected light prevents direct imaging. We discuss how similar planets may contaminate the sample of the very short microlensing events that are interpreted as free-floating planets with an estimated rate of 1.8 per main-sequence star. Moreover, the host star has a nearby stellar (or brown dwarf) companion. The projected separation of the planet is only about three times smaller than that of the companion star, suggesting significant dynamical interactions.

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Section: Prospects For Detecting Similar Planetsmentioning

confidence: 99%

Triple Microlens Ogle-2008-BLG-092l: Binary Stellar System With a Circumprimary Uranus-Type Planet

Poleski

Skowron

Udalski

et al. 2014

ApJ

Self Cite

102

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“…The latter caustic (central caustic) has an elongated wedgelike shape. The size of the planet-induced central caustics depends both on the star-planet separation and the planet/star mass ratio (Chung et al 2005). The planet-induced caustic is small due to the small mass ratio of the planet.…”

Section: Lensing Behaviormentioning

confidence: 99%

Microlensing Search for Planets with Two Simultaneously Rising Suns

Han

2008

ApJ

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Among more than 200 extrasolar planet candidates discovered to date, there is no known planet orbiting around normal binary stars. In this Letter, we demonstrate that microlensing is a technique that can detect such planets. Microlensing discoveries of these planets are possible because the planet and host binary stars produce perturbations at a common region around center of mass of the binary stars and thus the signatures of both planet and binary can be detected in the light curves of high-magnification microlensing events. The ranges of the planetary and binary separations of systems for optimal detection vary depending on the planet mass. For a Jupiter-mass planet, we find that high detection efficiency is expected for planets located in the range of ∼1-5 AU from the binary stars which are separated by ∼0.15-0.5 AU.

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“…q is the mass ratio between the two components of the lens system (q < 1), w is the width of the central caustic as defined by Chung et al (2005) (given there by their Eq. (12), and called vertical width or short diameter) and α is the trajectory angle with respect to the line joining the two components.…”

Section: Possible Planetary Deviationsmentioning

confidence: 99%

OGLE 2008–BLG–290: an accurate measurement of the limb darkening of a galactic bulge K Giant spatially resolved by microlensing

Fouqué

Heyrovsky

Dong

et al. 2010

A&A

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Context. Not only is gravitational microlensing a successful tool for discovering distant exoplanets, but it also enables characterization of the lens and source stars involved in the lensing event.Aims. In high-magnification events, the lens caustic may cross over the source disk, which allows determination of the angular size of the source and measurement of its limb darkening. Methods. When such extended-source effects appear close to maximum magnification, the resulting light curve differs from the characteristic Paczyński point-source curve. The exact shape of the light curve close to the peak depends on the limb darkening of the source. Dense photometric coverage permits measurement of the respective limb-darkening coefficients.Results. In the case of the microlensing event OGLE 2008-BLG-290, the K giant source star reached a peak magnification at about 100. Thirteen different telescopes have covered this event in eight different photometric bands. Subsequent light-curve analysis yielded measurements of linear limb-darkening coefficients of the source in six photometric bands. The best-measured coefficients lead to an estimate of the source effective temperature of about 4700 +100 −200 K. However, the photometric estimate from colour-magnitude diagrams favours a cooler temperature of 4200 ± 100 K. Conclusions. Because the limb-darkening measurements, at least in the CTIO/SMARTS2 V s -and I s -bands, are among the most accurate obtained, the above disagreement needs to be understood. A solution is proposed, which may apply to previous events where such a discrepancy also appeared.

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Properties of Central Caustics in Planetary Microlensing

Cited by 126 publications

References 33 publications

Triple Microlens Ogle-2008-BLG-092l: Binary Stellar System With a Circumprimary Uranus-Type Planet

Triple Microlens Ogle-2008-BLG-092l: Binary Stellar System With a Circumprimary Uranus-Type Planet

Microlensing Search for Planets with Two Simultaneously Rising Suns

OGLE 2008–BLG–290: an accurate measurement of the limb darkening of a galactic bulge K Giant spatially resolved by microlensing

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