The two rings of (50000) Quaoar
| Autor(a) principal: | |
|---|---|
| Data de Publicação: | 2023 |
| Outros Autores: | , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , |
| Tipo de documento: | Artigo |
| Idioma: | eng |
| Título da fonte: | Repositório Institucional da UNESP |
| Texto Completo: | http://dx.doi.org/10.1051/0004-6361/202346365 http://hdl.handle.net/11449/247404 |
Resumo: | Context. Quaoar is a classical trans-Neptunian object (TNO) with an area-equivalent diameter of 1100 km and an orbital semi-major axis of 43.3 astronomical units. Based on stellar occultations observed between 2018 and 2021, an inhomogeneous ring (Q1R, i.e., Quaoar's first ring) has been detected around this body. Aims. A new stellar occultation by Quaoar was observed on August 9, 2022, with the aim of improving Quaoar's shape models and the physical parameters of Q1R, while searching for additional material around the body. Methods. The occultation provided nine effective chords across Quaoar, pinning down its size, shape, and astrometric position. Large facilities, such as Gemini North and the Canada-France-Hawaii Telescope (CFHT), were used to obtain high acquisition rates and signal-to-noise ratios. The light curves were also used to characterize the Q1R ring (radial profiles and orbital elements). Results. Quaoar's elliptical fit to the occultation chords yields the limb with an apparent semi-major axis of 579.5 ± 4.0 km, apparent oblateness of 0.12 ± 0.01, and area-equivalent radius of 543 ± 2 km. Quaoar's limb orientation is consistent with Q1R and Weywot orbiting in Quaoar's equatorial plane. The orbital radius of Q1R is refined to a value of 4057 ± 6 km. The radial opacity profile of the more opaque ring profile follows a Lorentzian shape that extends over 60 km, with a full width at half maximum (FWHM) of ?5 km and a peak normal optical depth of 0.4. Besides the secondary events related to the already reported rings, new secondary events detected during the August 2022 occultation in three different data sets are consistent with another ring around Quaoar with a radius of 2520 ± 20 km, assuming the ring is circular and co-planar with Q1R. This new ring has a typical width of 10 km and a normal optical depth of ?0.004. Just as Q1R, it also lies outside Quaoar's classical Roche limit. |
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The two rings of (50000) QuaoarKuiper belt objects: individual: QuaoarMethods: data analysisMethods: observationalPlanets and satellites: ringsTechniques: photometricContext. Quaoar is a classical trans-Neptunian object (TNO) with an area-equivalent diameter of 1100 km and an orbital semi-major axis of 43.3 astronomical units. Based on stellar occultations observed between 2018 and 2021, an inhomogeneous ring (Q1R, i.e., Quaoar's first ring) has been detected around this body. Aims. A new stellar occultation by Quaoar was observed on August 9, 2022, with the aim of improving Quaoar's shape models and the physical parameters of Q1R, while searching for additional material around the body. Methods. The occultation provided nine effective chords across Quaoar, pinning down its size, shape, and astrometric position. Large facilities, such as Gemini North and the Canada-France-Hawaii Telescope (CFHT), were used to obtain high acquisition rates and signal-to-noise ratios. The light curves were also used to characterize the Q1R ring (radial profiles and orbital elements). Results. Quaoar's elliptical fit to the occultation chords yields the limb with an apparent semi-major axis of 579.5 ± 4.0 km, apparent oblateness of 0.12 ± 0.01, and area-equivalent radius of 543 ± 2 km. Quaoar's limb orientation is consistent with Q1R and Weywot orbiting in Quaoar's equatorial plane. The orbital radius of Q1R is refined to a value of 4057 ± 6 km. The radial opacity profile of the more opaque ring profile follows a Lorentzian shape that extends over 60 km, with a full width at half maximum (FWHM) of ?5 km and a peak normal optical depth of 0.4. Besides the secondary events related to the already reported rings, new secondary events detected during the August 2022 occultation in three different data sets are consistent with another ring around Quaoar with a radius of 2520 ± 20 km, assuming the ring is circular and co-planar with Q1R. This new ring has a typical width of 10 km and a normal optical depth of ?0.004. Just as Q1R, it also lies outside Quaoar's classical Roche limit.Observatório Nacional/MCTI, R. General José Cristino 77, RJLaboratório Interinstitucional de E-Astronomia - LIneA, RJUniversité Psl Lesia Observatoire de Paris CnrsUniversidade Federal Do Rio de Janeiro - Observatório Do Valongo, Ladeira Pedro Antônio 43, RJFederal University of Technology - Paraná (UTFPR-Curitiba), Rua Sete de Setembro, 3165, PRFlorida Space Institute,UCF, 12354 Research Parkway, Partnership 1 Building, Room 211Instituto de Astrofísica de Andalucía - Consejo Superior de Investigaciones Científicas, Glorieta de la Astronomía S/NDepartments of Astronomy and of Earth and Planetary Science University of California, 501, Campbell HallDepartment of Mathematics University of Namur NaXys, Rue de Bruxelles 61Laboratoire Lagrange Université Côte d'Azur Observatoire de la Côte d'Azur Cnrs, Bd de l'Observatoire, CS 34229Space Telescope Science InstituteLam (Laboratoire d'Astrophysique de Marseille) Umr 7326 Aix Marseille Université CNRS CnesCanada-France-Hawaii Telescope, 65-1238 Mamalahoa HighwayInstitut Polytechnique des Sciences Avancées Ipsa, 63 boulevard de BrandebourgPsl Research University Institut de Mécanique Céleste et de Calcul des ÉPhémérides Sorbonne Universités IMCCE Observatoire de Paris CNRS Upmc Univ Paris 06 Univ. LilleDepartment of Space Sciences and Technologies Faculty of Sciences Akdeniz UniversityTÜB?ITAK National Observatory, Akdeniz University CampusInstitute of Physics Federal University of Uberlândia, MGGrupo de Dinâmica Orbital e Planetologia Unesp - São Paulo State University, SPUniversidade Estadual de Ponta Grossa O.A. - Degeo, PRInternationale Amateursternwarte (IAS) E. V., Mittelstr. 6International Occultation Timing Association - European Section (IOTA/ES), Am Brombeerhag 13Département de Physique and Observatoire du Mont-Mégantic Succ. Centre-ville Université de Montréal, C.P. 6128Institut Trottier de Recherche sur les Exoplanètes Université de MontréalHarvard-Smithsonian Center for Astrophysics, 60 Garden StreetGemini Observatory/NSF's NOIRLabCabrillo College AstronomySouthwest Research Institute, 1050 Walnut Street, Suite 300International Occultation Timing Association (IOTA)California Institute of Technology, 1200 E California BlvdInstituto de Astronomía Universidad Nacional Autónoma de México, AP 106,BCUniversity of OregonCanCON - Canadian Collaborative Occultation NetworkNasa Ames Research CenterDept. of Mathematics and Physics University of New Haven, 300 Boston Post RoadAcademia Sinica Institute of Astronomy and Astrophysics, 11F of AS/NTU Astronomy-Mathematics Building No.1, Sec. 4, Roosevelt Road, ROCUniversity of Colorado, 2000 Colorado AvenuePlanetary Plasma and Atmospheric Research Center Graduate School of Science Tohoku University, 6-3 Aramaki -aza-aoba, Aoba-kuDepartment of Physics and Astronomy University of Victoria, Building, 3800 Finnerty Road, VictoriaUnistellar, 5 allée Marcel Leclerc, bâtiment BCarl Sagan Center Seti Institute, Suite 200, 339 Bernardo AvenueAstronomy Department and Van Vleck Observatory Wesleyan UniversityResearch and Education Collaborative Occultation NetworkDepartment of Chemistry and Physics Purdue University NorthwestDepartment of Astronomy University of Virginia, PO Box 400325Private ObservatoryInstituto de Astrofísica de Canarias University of la LagunaDept. Earth and Planetary Science University of TokyoSchool of Medicine Department of Basic Sciences University of Occupational and Environmental Health, 1-1 Iseigaoka, YahataPlanetary Exploration Research Center Chiba Institute of Technology, 2-17-1 Tsudanuma, ChibaNaylor ObservatoryNasa Exoplanet Science Institute Caltech/IPAC, Mail Code 100- 22Grupo de Dinâmica Orbital e Planetologia Unesp - São Paulo State University, SPObservatório Nacional/MCTILaboratório Interinstitucional de E-Astronomia - LIneACnrsUniversidade Federal do Rio de Janeiro (UFRJ)Federal University of Technology - Paraná (UTFPR-Curitiba)Florida Space Institute,UCFInstituto de Astrofísica de Andalucía - Consejo Superior de Investigaciones CientíficasUniversity of CaliforniaNaXysSpace Telescope Science InstituteCnesCanada-France-Hawaii TelescopeInstitut Polytechnique des Sciences Avancées IpsaUniv. LilleAkdeniz UniversityTÜB?ITAK National ObservatoryUniversidade Federal de Uberlândia (UFU)Universidade Estadual Paulista (UNESP)Universidade Estadual de Ponta Grossa (UEPG)Internationale Amateursternwarte (IAS) E. V.International Occultation Timing Association - European Section (IOTA/ES)Université de MontréalHarvard-Smithsonian Center for AstrophysicsGemini Observatory/NSF's NOIRLabCabrillo College AstronomySouthwest Research InstituteInternational Occultation Timing Association (IOTA)California Institute of TechnologyUniversidad Nacional Autónoma de MéxicoUniversity of OregonCanCON - Canadian Collaborative Occultation NetworkNasa Ames Research CenterUniversity of New HavenAcademia Sinica Institute of Astronomy and AstrophysicsUniversity of ColoradoTohoku UniversityUniversity of VictoriaUnistellarSeti InstituteWesleyan UniversityResearch and Education Collaborative Occultation NetworkPurdue University NorthwestUniversity of VirginiaPrivate ObservatoryUniversity of la LagunaUniversity of TokyoSchool of Medicine Department of Basic Sciences University of Occupational and Environmental HealthChiba Institute of TechnologyNaylor ObservatoryCaltech/IPACPereira, C. L.Sicardy, B.Morgado, B. E.Braga-Ribas, F.Fernández-Valenzuela, E.Souami, D.Holler, B. J.Boufleur, R. C.Margoti, G.Assafin, M.Ortiz, J. L.Santos-Sanz, P.Epinat, B.Kervella, P.Desmars, J.Vieira-Martins, R.Kilic, Y.Gomes Júnior, A. R. [UNESP]Camargo, J. I.B.Emilio, M.Vara-Lubiano, M.Kretlow, M.Albert, L.Alcock, C.Ball, J. G.Bender, K.Buie, M. W.Butterfield, K.Camarca, M.Castro-Chacón, J. H.Dunford, R.Fisher, R. S.Gamble, D.Geary, J. C.Gnilka, C. L.Green, K. D.Hartman, Z. D.Huang, C. K.Januszewski, H.Johnston, J.Kagitani, M.Kamin, R.Kavelaars, J. J.Keller, J. M.De Kleer, K. R.Lehner, M. J.Luken, A.Marchis, F.Marlin, T.McGregor, K.Nikitin, V.Nolthenius, R.Patrick, C.Redfield, S.Rengstorf, A. W.Reyes-Ruiz, M.Seccull, T.Skrutskie, M. F.Smith, A. B.Sproul, M.Stephens, A. W.Szentgyorgyi, A.Sánchez-Sanjuán, S.Tatsumi, E.Verbiscer, A.Wang, S. Y.Yoshida, F.Young, R.Zhang, Z. W.2023-07-29T13:15:12Z2023-07-29T13:15:12Z2023-05-01info:eu-repo/semantics/publishedVersioninfo:eu-repo/semantics/articlehttp://dx.doi.org/10.1051/0004-6361/202346365Astronomy and Astrophysics, v. 673.1432-07460004-6361http://hdl.handle.net/11449/24740410.1051/0004-6361/2023463652-s2.0-85159764785Scopusreponame:Repositório Institucional da UNESPinstname:Universidade Estadual Paulista (UNESP)instacron:UNESPengAstronomy and Astrophysicsinfo:eu-repo/semantics/openAccess2023-07-29T13:15:13Zoai:repositorio.unesp.br:11449/247404Repositório InstitucionalPUBhttp://repositorio.unesp.br/oai/requestopendoar:29462024-08-05T22:10:32.578413Repositório Institucional da UNESP - Universidade Estadual Paulista (UNESP)false |
| dc.title.none.fl_str_mv |
The two rings of (50000) Quaoar |
| title |
The two rings of (50000) Quaoar |
| spellingShingle |
The two rings of (50000) Quaoar Pereira, C. L. Kuiper belt objects: individual: Quaoar Methods: data analysis Methods: observational Planets and satellites: rings Techniques: photometric |
| title_short |
The two rings of (50000) Quaoar |
| title_full |
The two rings of (50000) Quaoar |
| title_fullStr |
The two rings of (50000) Quaoar |
| title_full_unstemmed |
The two rings of (50000) Quaoar |
| title_sort |
The two rings of (50000) Quaoar |
| author |
Pereira, C. L. |
| author_facet |
Pereira, C. L. Sicardy, B. Morgado, B. E. Braga-Ribas, F. Fernández-Valenzuela, E. Souami, D. Holler, B. J. Boufleur, R. C. Margoti, G. Assafin, M. Ortiz, J. L. Santos-Sanz, P. Epinat, B. Kervella, P. Desmars, J. Vieira-Martins, R. Kilic, Y. Gomes Júnior, A. R. [UNESP] Camargo, J. I.B. Emilio, M. Vara-Lubiano, M. Kretlow, M. Albert, L. Alcock, C. Ball, J. G. Bender, K. Buie, M. W. Butterfield, K. Camarca, M. Castro-Chacón, J. H. Dunford, R. Fisher, R. S. Gamble, D. Geary, J. C. Gnilka, C. L. Green, K. D. Hartman, Z. D. Huang, C. K. Januszewski, H. Johnston, J. Kagitani, M. Kamin, R. Kavelaars, J. J. Keller, J. M. De Kleer, K. R. Lehner, M. J. Luken, A. Marchis, F. Marlin, T. McGregor, K. Nikitin, V. Nolthenius, R. Patrick, C. Redfield, S. Rengstorf, A. W. Reyes-Ruiz, M. Seccull, T. Skrutskie, M. F. Smith, A. B. Sproul, M. Stephens, A. W. Szentgyorgyi, A. Sánchez-Sanjuán, S. Tatsumi, E. Verbiscer, A. Wang, S. Y. Yoshida, F. Young, R. Zhang, Z. W. |
| author_role |
author |
| author2 |
Sicardy, B. Morgado, B. E. Braga-Ribas, F. Fernández-Valenzuela, E. Souami, D. Holler, B. J. Boufleur, R. C. Margoti, G. Assafin, M. Ortiz, J. L. Santos-Sanz, P. Epinat, B. Kervella, P. Desmars, J. Vieira-Martins, R. Kilic, Y. Gomes Júnior, A. R. [UNESP] Camargo, J. I.B. Emilio, M. Vara-Lubiano, M. Kretlow, M. Albert, L. Alcock, C. Ball, J. G. Bender, K. Buie, M. W. Butterfield, K. Camarca, M. Castro-Chacón, J. H. Dunford, R. Fisher, R. S. Gamble, D. Geary, J. C. Gnilka, C. L. Green, K. D. Hartman, Z. D. Huang, C. K. Januszewski, H. Johnston, J. Kagitani, M. Kamin, R. Kavelaars, J. J. Keller, J. M. De Kleer, K. R. Lehner, M. J. Luken, A. Marchis, F. Marlin, T. McGregor, K. Nikitin, V. Nolthenius, R. Patrick, C. Redfield, S. Rengstorf, A. W. Reyes-Ruiz, M. Seccull, T. Skrutskie, M. F. Smith, A. B. Sproul, M. Stephens, A. W. Szentgyorgyi, A. Sánchez-Sanjuán, S. Tatsumi, E. Verbiscer, A. Wang, S. Y. Yoshida, F. Young, R. Zhang, Z. W. |
| author2_role |
author author author author author author author author author author author author author author author author author author author author author author author author author author author author author author author author author author author author author author author author author author author author author author author author author author author author author author author author author author author author author author author author author author author author |
| dc.contributor.none.fl_str_mv |
Observatório Nacional/MCTI Laboratório Interinstitucional de E-Astronomia - LIneA Cnrs Universidade Federal do Rio de Janeiro (UFRJ) Federal University of Technology - Paraná (UTFPR-Curitiba) Florida Space Institute,UCF Instituto de Astrofísica de Andalucía - Consejo Superior de Investigaciones Científicas University of California NaXys Space Telescope Science Institute Cnes Canada-France-Hawaii Telescope Institut Polytechnique des Sciences Avancées Ipsa Univ. Lille Akdeniz University TÜB?ITAK National Observatory Universidade Federal de Uberlândia (UFU) Universidade Estadual Paulista (UNESP) Universidade Estadual de Ponta Grossa (UEPG) Internationale Amateursternwarte (IAS) E. V. International Occultation Timing Association - European Section (IOTA/ES) Université de Montréal Harvard-Smithsonian Center for Astrophysics Gemini Observatory/NSF's NOIRLab Cabrillo College Astronomy Southwest Research Institute International Occultation Timing Association (IOTA) California Institute of Technology Universidad Nacional Autónoma de México University of Oregon CanCON - Canadian Collaborative Occultation Network Nasa Ames Research Center University of New Haven Academia Sinica Institute of Astronomy and Astrophysics University of Colorado Tohoku University University of Victoria Unistellar Seti Institute Wesleyan University Research and Education Collaborative Occultation Network Purdue University Northwest University of Virginia Private Observatory University of la Laguna University of Tokyo School of Medicine Department of Basic Sciences University of Occupational and Environmental Health Chiba Institute of Technology Naylor Observatory Caltech/IPAC |
| dc.contributor.author.fl_str_mv |
Pereira, C. L. Sicardy, B. Morgado, B. E. Braga-Ribas, F. Fernández-Valenzuela, E. Souami, D. Holler, B. J. Boufleur, R. C. Margoti, G. Assafin, M. Ortiz, J. L. Santos-Sanz, P. Epinat, B. Kervella, P. Desmars, J. Vieira-Martins, R. Kilic, Y. Gomes Júnior, A. R. [UNESP] Camargo, J. I.B. Emilio, M. Vara-Lubiano, M. Kretlow, M. Albert, L. Alcock, C. Ball, J. G. Bender, K. Buie, M. W. Butterfield, K. Camarca, M. Castro-Chacón, J. H. Dunford, R. Fisher, R. S. Gamble, D. Geary, J. C. Gnilka, C. L. Green, K. D. Hartman, Z. D. Huang, C. K. Januszewski, H. Johnston, J. Kagitani, M. Kamin, R. Kavelaars, J. J. Keller, J. M. De Kleer, K. R. Lehner, M. J. Luken, A. Marchis, F. Marlin, T. McGregor, K. Nikitin, V. Nolthenius, R. Patrick, C. Redfield, S. Rengstorf, A. W. Reyes-Ruiz, M. Seccull, T. Skrutskie, M. F. Smith, A. B. Sproul, M. Stephens, A. W. Szentgyorgyi, A. Sánchez-Sanjuán, S. Tatsumi, E. Verbiscer, A. Wang, S. Y. Yoshida, F. Young, R. Zhang, Z. W. |
| dc.subject.por.fl_str_mv |
Kuiper belt objects: individual: Quaoar Methods: data analysis Methods: observational Planets and satellites: rings Techniques: photometric |
| topic |
Kuiper belt objects: individual: Quaoar Methods: data analysis Methods: observational Planets and satellites: rings Techniques: photometric |
| description |
Context. Quaoar is a classical trans-Neptunian object (TNO) with an area-equivalent diameter of 1100 km and an orbital semi-major axis of 43.3 astronomical units. Based on stellar occultations observed between 2018 and 2021, an inhomogeneous ring (Q1R, i.e., Quaoar's first ring) has been detected around this body. Aims. A new stellar occultation by Quaoar was observed on August 9, 2022, with the aim of improving Quaoar's shape models and the physical parameters of Q1R, while searching for additional material around the body. Methods. The occultation provided nine effective chords across Quaoar, pinning down its size, shape, and astrometric position. Large facilities, such as Gemini North and the Canada-France-Hawaii Telescope (CFHT), were used to obtain high acquisition rates and signal-to-noise ratios. The light curves were also used to characterize the Q1R ring (radial profiles and orbital elements). Results. Quaoar's elliptical fit to the occultation chords yields the limb with an apparent semi-major axis of 579.5 ± 4.0 km, apparent oblateness of 0.12 ± 0.01, and area-equivalent radius of 543 ± 2 km. Quaoar's limb orientation is consistent with Q1R and Weywot orbiting in Quaoar's equatorial plane. The orbital radius of Q1R is refined to a value of 4057 ± 6 km. The radial opacity profile of the more opaque ring profile follows a Lorentzian shape that extends over 60 km, with a full width at half maximum (FWHM) of ?5 km and a peak normal optical depth of 0.4. Besides the secondary events related to the already reported rings, new secondary events detected during the August 2022 occultation in three different data sets are consistent with another ring around Quaoar with a radius of 2520 ± 20 km, assuming the ring is circular and co-planar with Q1R. This new ring has a typical width of 10 km and a normal optical depth of ?0.004. Just as Q1R, it also lies outside Quaoar's classical Roche limit. |
| publishDate |
2023 |
| dc.date.none.fl_str_mv |
2023-07-29T13:15:12Z 2023-07-29T13:15:12Z 2023-05-01 |
| dc.type.status.fl_str_mv |
info:eu-repo/semantics/publishedVersion |
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info:eu-repo/semantics/article |
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article |
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publishedVersion |
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http://dx.doi.org/10.1051/0004-6361/202346365 Astronomy and Astrophysics, v. 673. 1432-0746 0004-6361 http://hdl.handle.net/11449/247404 10.1051/0004-6361/202346365 2-s2.0-85159764785 |
| url |
http://dx.doi.org/10.1051/0004-6361/202346365 http://hdl.handle.net/11449/247404 |
| identifier_str_mv |
Astronomy and Astrophysics, v. 673. 1432-0746 0004-6361 10.1051/0004-6361/202346365 2-s2.0-85159764785 |
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eng |
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eng |
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Astronomy and Astrophysics |
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info:eu-repo/semantics/openAccess |
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openAccess |
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