Protoplanetary disks; Planet formation; Submillimeter astronomy; 1300; 1241; 1647; Astrophysics - Solar and Stellar Astrophysics; Astrophysics - Earth and Planetary Astrophysics; Astrophysics -; Astrophysics of Galaxies
Abstract :
[en] We present evidence for localized deviations from Keplerian rotation, I.e., velocity "kinks," in 8 of the 18 circumstellar disks observed by the DSHARP program: DoAr 25, Elias 2-27, GW Lup, HD 143006, HD 163296, IM Lup, Sz 129, and WaOph 6. Most of the kinks are detected over a small range in both radial extent and velocity, suggesting a planetary origin, but for some of them foreground contamination prevents us from measuring their spatial and velocity extent. Because of the DSHARP limited spectral resolution and signal to noise in the <SUP>12</SUP>CO J = 2-1 line, as well as cloud contamination, the kinks are usually detected in only one spectral channel, and will require confirmation. The strongest circumstantial evidence for protoplanets in the absence of higher spectral resolution data and additional tracers is that, upon deprojection, we find that all of the candidate planets lie within a gap and/or at the end of a spiral detected in dust continuum emission. This suggests that a significant fraction of the dust gaps and spirals observed by Atacama Large Millimeter/submillimeter Array in disks are caused by embedded protoplanets.
Disciplines :
Space science, astronomy & astrophysics
Author, co-author :
Pinte, C.; Monash University, School of Astrophysics, Institute de Planetologie et d'Astrophysique de Grenoble
Price, D. J.; Monash University, School of Astrophysics
Ménard, F.; Institute de Planetologie et d'Astrophysique de Grenoble
Duchêne, G.; Institute de Planetologie et d'Astrophysique de Grenoble, University of California, Berkeley, Department of Astronomy
Christiaens, Valentin ; Université de Liège - ULiège > Unités de recherche interfacultaires > Space sciences, Technologies and Astrophysics Research (STAR) ; Monash University, School of Astrophysics
Andrews, S. M.; Harvard Smithsonian Center for Astrophysics
Huang, J.; Harvard Smithsonian Center for Astrophysics
Hill, T.; ALMA Science Center, Chile
van der Plas, G.; Institute de Planetologie et d'Astrophysique de Grenoble
Perez, L. M.; University of Chile, Department of Astronomy
Isella, A.; Rice University, Department of Physics and Astronomy
Boehler, Y.; Institute de Planetologie et d'Astrophysique de Grenoble
Dent, W. R. F.; ALMA Science Center, Chile
Mentiplay, D.; Monash University, School of Astrophysics
Loomis, R. A.; National Radio Astronomy Observatory, Virginia
ALMA Partnership, Brogan C. L., Pérez L. M. et al 2015 ApJL 808 L3
Andrews S. M., Huang J., Pérez L. M. et al 2018 ApJL 869 L41
Bae J., Zhu Z. and Hartmann L. 2017 ApJ 850 201
Boehler Y., Weaver E., Isella A. et al 2017 ApJ 840 60
Casassus S. and Pérez S. 2019 ApJL 883 L41
Casassus S., Marino S., Pérez S. et al 2015 ApJ 811 92
Christiaens V., Casassus S., Absil O. et al 2019 MNRAS 486 5819
Dipierro G., Price D., Laibe G. et al 2015 MNRAS 453 L73
Dong R. and Fung J. 2017 ApJ 835 146
Dong R., Zhu Z. and Whitney B. 2015 ApJ 809 93
Favre C., Fedele D., Maud L. et al 2018 ApJ 871 107
Flock M., Ruge J. P., Dzyurkevich N. et al 2015 A&A 574 A68
Goldreich P. and Tremaine S. 1979 ApJ 233 857
Gonzalez J.-F., Laibe G. and Maddison S. T. 2017 MNRAS 467 1984
Guzmán V. V., Huang J., Andrews S. M. et al 2018 ApJL 869 L48
Haffert S. Y., Bohn A. J., de Boer J. et al 2019 NatAs 3 749
Huang J., Andrews S. M., Dullemond C. P. et al 2018a ApJL 869 L42
Huang J., Andrews S. M., Pérez L. M. et al 2018b ApJL 869 L43
Isella A., Guidi G., Testi L. et al 2016 PhRvL 117 251101
Isella A., Huang J., Andrews S. M. et al 2018 ApJL 869 L49
Jin S., Li S., Isella A., Li H. and Ji J. 2016 ApJ 818 76
Jorsater S. and van Moorsel G. A. 1995 AJ 110 2037
Keppler M., Benisty M., Müller A. et al 2018 A&A 617 A44
Lodato G., Dipierro G., Ragusa E. et al 2019 MNRAS 486 453
Long F., Pinilla P., Herczeg G. J. et al 2018 ApJ 869 17
McMullin J. P., Waters B., Schiebel D., Young W. and Golap K. 2007 ASP Conf. Ser. 376, Astronomical Data Analysis Software and Systems XVI ed R. A. Shaw, F. Hill and D. J. Bell (San Francisco, CA: ASP) 127
Müller A., Keppler M., Henning T. et al 2018 A&A 617 L2
Nielsen E. L., De Rosa R. J., Macintosh B. et al 2019 AJ 158 13
Okuzumi S., Momose M., Sirono S.-I., Kobayashi H. and Tanaka H. 2016 ApJ 821 82
Pérez L. M., Benisty M., Andrews S. M. et al 2018 ApJL 869 L50
Pérez S., Casassus S., Hales A. et al 2019 arXiv:1906.06305
Perez S., Dunhill A., Casassus S. et al 2015 ApJL 811 L5
Pinte C., Harries T. J., Min M. et al 2009 A&A 498 967
Pinte C., Ménard F., Duchêne G. et al 2018a A&A 609 A47
Pinte C., Ménard F., Duchêne G. and Bastien P. 2006 A&A 459 797
Pinte C., Price D. J., Ménard F. et al 2018b ApJL 860 L13
Pinte C., van der Plas G., Ménard F. et al 2019 NatAs 3 109
Price D. J., Cuello N., Pinte C. et al 2018 MNRAS 477 1270
Riols A. and Lesur G. 2019 A&A 625 A108
Stone J. M., Skemer A. J., Hinz P. M. et al 2018 AJ 156 286
Teague R., Bae J. and Bergin E. A. 2019 Natur 574 378
Teague R., Bae J., Bergin E. A., Birnstiel T. and Foreman-Mackey D. 2018a ApJL 860 L12
Teague R., Bae J., Birnstiel T. and Bergin E. A. 2018b ApJ 868 113
van der Marel N., Dong R., di Francesco J., Williams J. and Tobin J. 2019 ApJ 872 112
Vigan A., Bonavita M., Biller B. et al 2017 A&A 603 A3
Zhang K., Blake G. A. and Bergin E. A. 2015 ApJL 806 L7
Zhang S., Zhu Z., Huang J. et al 2018 ApJL 869 L47
