OGLE-2012-BLG-0724Lb: A Saturn-mass Planet around an M-dwarf

We report the discovery of a planet by the microlensing method, OGLE-2012-BLG-0724Lb. Although the duration of the planetary signal for this event was one of the shortest seen for a planetary event, the anomaly was well covered thanks to high cadence observations taken by the survey groups OGLE and...

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Veröffentlicht in:	arXiv.org 2016-04
Hauptverfasser:	Hirao, Y, Udalski, A, Sumi, T, Bennett, D P, Bond, I A, Rattenbury, N, Suzuki, D, Koshimoto, N, Abe, F, Asakura, Y, Bhattacharya, A, Freeman, M, Fukui, A, Itow, Y, Li, M C A, Ling, C H, Masuda, K, Matsubara, Y, Matsuo, T, Muraki, Y, Nagakane, M, Ohnishi, K, Oyokawa, H, Saito, To, Sharan, A, Shibai, H, Sullivan, D J, Tristram, P J, Yonehara, A, Poleski, R, Skowron, J, Mróz, P, Szymański, M K, Kozłowski, S, Pietrukowicz, P, Soszyński, I, \L Wyzykowski, Ulaczyk, K
Format:	Artikel
Sprache:	eng
Schlagworte:	Bayesian analysis Deposition Dwarf planets Extrasolar planets Gas giant planets Image detection Image resolution Jupiter Lenses Light curve Microlenses Physics - Earth and Planetary Astrophysics Planet formation Planetary systems Red dwarf stars Saturn
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creator	Hirao, Y Udalski, A Sumi, T Bennett, D P Bond, I A Rattenbury, N Suzuki, D Koshimoto, N Abe, F Asakura, Y Bhattacharya, A Freeman, M Fukui, A Itow, Y Li, M C A Ling, C H Masuda, K Matsubara, Y Matsuo, T Muraki, Y Nagakane, M Ohnishi, K Oyokawa, H Saito, To Sharan, A Shibai, H Sullivan, D J Tristram, P J Yonehara, A Poleski, R Skowron, J Mróz, P Szymański, M K Kozłowski, S Pietrukowicz, P Soszyński, I \L Wyzykowski Ulaczyk, K
description	We report the discovery of a planet by the microlensing method, OGLE-2012-BLG-0724Lb. Although the duration of the planetary signal for this event was one of the shortest seen for a planetary event, the anomaly was well covered thanks to high cadence observations taken by the survey groups OGLE and MOA. By analyzing the light curve, this planetary system is found to have a mass ratio $q=(1.58\pm0.15)\times10^{-3}$. By conducting a Bayesian analysis, we estimate that the host star is an M-dwarf star with a mass of $M_{\rm L}=0.29_{-0.16}^{+0.33} \ M_{\odot}$ located at $D_{\rm L}=6.7_{-1.2}^{+1.1} \ {\rm kpc}$ away from the Earth and the companion's mass is $m_{\rm P}=0.47_{-0.26}^{+0.54} \ M_{\rm Jup}$. The projected planet-host separation is $a_{\perp}=1.6_{-0.3}^{+0.4} \ {\rm AU}$. Because the lens-source relative proper motion is relatively high, future high resolution images would detect the lens host star and determine the lens properties uniquely. This system is likely a Saturn-mass exoplanet around an M-dwarf and such systems are commonly detected by gravitational microlensing. This adds an another example of a possible pileup of sub-Jupiters $(0.2 < m_{\rm P}/M_{\rm Jup} < 1)$ in contrast to a lack of Jupiters ($\sim 1 - 2 \ M_{\rm Jup}$) around M-dwarfs, supporting the prediction by core accretion models that Jupiter-mass or more massive planets are unlikely to form around M-dwarfs.
doi_str_mv	10.48550/arxiv.1604.05463
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This system is likely a Saturn-mass exoplanet around an M-dwarf and such systems are commonly detected by gravitational microlensing. This adds an another example of a possible pileup of sub-Jupiters $(0.2 < m_{\rm P}/M_{\rm Jup} < 1)$ in contrast to a lack of Jupiters ($\sim 1 - 2 \ M_{\rm Jup}$) around M-dwarfs, supporting the prediction by core accretion models that Jupiter-mass or more massive planets are unlikely to form around M-dwarfs.</description><identifier>EISSN: 2331-8422</identifier><identifier>DOI: 10.48550/arxiv.1604.05463</identifier><language>eng</language><publisher>Ithaca: Cornell University Library, arXiv.org</publisher><subject>Bayesian analysis ; Deposition ; Dwarf planets ; Extrasolar planets ; Gas giant planets ; Image detection ; Image resolution ; Jupiter ; Lenses ; Light curve ; Microlenses ; Physics - Earth and Planetary Astrophysics ; Planet formation ; Planetary systems ; Red dwarf stars ; Saturn</subject><ispartof>arXiv.org, 2016-04</ispartof><rights>2016. This work is published under http://arxiv.org/licenses/nonexclusive-distrib/1.0/ (the “License”). 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Although the duration of the planetary signal for this event was one of the shortest seen for a planetary event, the anomaly was well covered thanks to high cadence observations taken by the survey groups OGLE and MOA. By analyzing the light curve, this planetary system is found to have a mass ratio $q=(1.58\pm0.15)\times10^{-3}$. By conducting a Bayesian analysis, we estimate that the host star is an M-dwarf star with a mass of $M_{\rm L}=0.29_{-0.16}^{+0.33} \ M_{\odot}$ located at $D_{\rm L}=6.7_{-1.2}^{+1.1} \ {\rm kpc}$ away from the Earth and the companion's mass is $m_{\rm P}=0.47_{-0.26}^{+0.54} \ M_{\rm Jup}$. The projected planet-host separation is $a_{\perp}=1.6_{-0.3}^{+0.4} \ {\rm AU}$. Because the lens-source relative proper motion is relatively high, future high resolution images would detect the lens host star and determine the lens properties uniquely. This system is likely a Saturn-mass exoplanet around an M-dwarf and such systems are commonly detected by gravitational microlensing. This adds an another example of a possible pileup of sub-Jupiters $(0.2 < m_{\rm P}/M_{\rm Jup} < 1)$ in contrast to a lack of Jupiters ($\sim 1 - 2 \ M_{\rm Jup}$) around M-dwarfs, supporting the prediction by core accretion models that Jupiter-mass or more massive planets are unlikely to form around M-dwarfs.</description><subject>Bayesian analysis</subject><subject>Deposition</subject><subject>Dwarf planets</subject><subject>Extrasolar planets</subject><subject>Gas giant planets</subject><subject>Image detection</subject><subject>Image resolution</subject><subject>Jupiter</subject><subject>Lenses</subject><subject>Light curve</subject><subject>Microlenses</subject><subject>Physics - Earth and Planetary Astrophysics</subject><subject>Planet formation</subject><subject>Planetary systems</subject><subject>Red dwarf stars</subject><subject>Saturn</subject><issn>2331-8422</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2016</creationdate><recordtype>article</recordtype><sourceid>ABUWG</sourceid><sourceid>AFKRA</sourceid><sourceid>AZQEC</sourceid><sourceid>BENPR</sourceid><sourceid>CCPQU</sourceid><sourceid>DWQXO</sourceid><sourceid>GOX</sourceid><recordid>eNotj11LwzAYRoMgOOZ-gFcGvE7N--ajqXgzx1aFygR3X9ImhY2tnUnrx7-3bl49N4eHcwi5AZ5IoxS_t-F7-5mA5jLhSmpxQSYoBDAjEa_ILMYd5xx1ikqJCXlc58WSIQdkT0XOeIqyqB7onL7bfggtO9gY6dvetr6nNnRD66ht6StzXzY01-SysfvoZ_87JZvVcrN4ZsU6f1nMC2YVZqxudNqozFVgtZPAQVQGhTccnZe-rjJZATYZiFpo4Tw0AOi0Ru9qo7VVYkpuz7entPIYtgcbfsq_xPKUOBJ3Z-IYuo_Bx77cdaP96FQiN2OvkWkmfgEbsE9r</recordid><startdate>20160419</startdate><enddate>20160419</enddate><creator>Hirao, Y</creator><creator>Udalski, A</creator><creator>Sumi, T</creator><creator>Bennett, D P</creator><creator>Bond, I A</creator><creator>Rattenbury, N</creator><creator>Suzuki, D</creator><creator>Koshimoto, N</creator><creator>Abe, F</creator><creator>Asakura, Y</creator><creator>Bhattacharya, A</creator><creator>Freeman, M</creator><creator>Fukui, A</creator><creator>Itow, Y</creator><creator>Li, M C A</creator><creator>Ling, C H</creator><creator>Masuda, K</creator><creator>Matsubara, Y</creator><creator>Matsuo, T</creator><creator>Muraki, Y</creator><creator>Nagakane, M</creator><creator>Ohnishi, K</creator><creator>Oyokawa, H</creator><creator>Saito, To</creator><creator>Sharan, A</creator><creator>Shibai, H</creator><creator>Sullivan, D J</creator><creator>Tristram, P J</creator><creator>Yonehara, A</creator><creator>Poleski, R</creator><creator>Skowron, J</creator><creator>Mróz, P</creator><creator>Szymański, M K</creator><creator>Kozłowski, S</creator><creator>Pietrukowicz, P</creator><creator>Soszyński, I</creator><creator>\L Wyzykowski</creator><creator>Ulaczyk, K</creator><general>Cornell University Library, arXiv.org</general><scope>8FE</scope><scope>8FG</scope><scope>ABJCF</scope><scope>ABUWG</scope><scope>AFKRA</scope><scope>AZQEC</scope><scope>BENPR</scope><scope>BGLVJ</scope><scope>CCPQU</scope><scope>DWQXO</scope><scope>HCIFZ</scope><scope>L6V</scope><scope>M7S</scope><scope>PIMPY</scope><scope>PQEST</scope><scope>PQQKQ</scope><scope>PQUKI</scope><scope>PRINS</scope><scope>PTHSS</scope><scope>GOX</scope></search><sort><creationdate>20160419</creationdate><title>OGLE-2012-BLG-0724Lb: A Saturn-mass Planet around an M-dwarf</title><author>Hirao, Y ; Udalski, A ; Sumi, T ; Bennett, D P ; Bond, I A ; Rattenbury, N ; Suzuki, D ; Koshimoto, N ; Abe, F ; Asakura, Y ; Bhattacharya, A ; Freeman, M ; Fukui, A ; Itow, Y ; Li, M C A ; Ling, C H ; Masuda, K ; Matsubara, Y ; Matsuo, T ; Muraki, Y ; Nagakane, M ; Ohnishi, K ; Oyokawa, H ; Saito, To ; Sharan, A ; Shibai, H ; Sullivan, D J ; Tristram, P J ; Yonehara, A ; Poleski, R ; Skowron, J ; Mróz, P ; Szymański, M K ; Kozłowski, S ; Pietrukowicz, P ; Soszyński, I ; \L Wyzykowski ; Ulaczyk, K</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-a529-cf67f59db1a6d41013b823e802de4ecb94b12f913c363de1f112d662edc866a53</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2016</creationdate><topic>Bayesian analysis</topic><topic>Deposition</topic><topic>Dwarf planets</topic><topic>Extrasolar planets</topic><topic>Gas giant planets</topic><topic>Image detection</topic><topic>Image resolution</topic><topic>Jupiter</topic><topic>Lenses</topic><topic>Light curve</topic><topic>Microlenses</topic><topic>Physics - 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Although the duration of the planetary signal for this event was one of the shortest seen for a planetary event, the anomaly was well covered thanks to high cadence observations taken by the survey groups OGLE and MOA. By analyzing the light curve, this planetary system is found to have a mass ratio $q=(1.58\pm0.15)\times10^{-3}$. By conducting a Bayesian analysis, we estimate that the host star is an M-dwarf star with a mass of $M_{\rm L}=0.29_{-0.16}^{+0.33} \ M_{\odot}$ located at $D_{\rm L}=6.7_{-1.2}^{+1.1} \ {\rm kpc}$ away from the Earth and the companion's mass is $m_{\rm P}=0.47_{-0.26}^{+0.54} \ M_{\rm Jup}$. The projected planet-host separation is $a_{\perp}=1.6_{-0.3}^{+0.4} \ {\rm AU}$. Because the lens-source relative proper motion is relatively high, future high resolution images would detect the lens host star and determine the lens properties uniquely. This system is likely a Saturn-mass exoplanet around an M-dwarf and such systems are commonly detected by gravitational microlensing. This adds an another example of a possible pileup of sub-Jupiters $(0.2 < m_{\rm P}/M_{\rm Jup} < 1)$ in contrast to a lack of Jupiters ($\sim 1 - 2 \ M_{\rm Jup}$) around M-dwarfs, supporting the prediction by core accretion models that Jupiter-mass or more massive planets are unlikely to form around M-dwarfs.</abstract><cop>Ithaca</cop><pub>Cornell University Library, arXiv.org</pub><doi>10.48550/arxiv.1604.05463</doi><oa>free_for_read</oa></addata></record>
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subjects	Bayesian analysis Deposition Dwarf planets Extrasolar planets Gas giant planets Image detection Image resolution Jupiter Lenses Light curve Microlenses Physics - Earth and Planetary Astrophysics Planet formation Planetary systems Red dwarf stars Saturn
title	OGLE-2012-BLG-0724Lb: A Saturn-mass Planet around an M-dwarf
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