IM Lupi explained

IM Lupi is a young stellar object with a surrounding protoplanetary disk. The young star is suspected to host a still forming protoplanet at a distance of 110 astronomical units (AU) and a mass of 2-3 .[1] [2] IM Lupi is 508 light-years (156 parsec) distant.

Star

The star IM Lupi was classified as a class II YSO with a spectral type M0.[3] The star is probably not actively accreting, but there is evidence that the accretion is variable around IM Lupi. The young star is associated with the Lupus 2 Molecular Cloud.[4]

Protoplanetary Disk

Many features at different wavelengths have been observed in this disk, which is very massive (0.17). The disk has a gas and a dust component. The gas component reaches out to 751 AU and the smaller dust component reaches out to 334 AU. In a scattered light image from SPHERE the upper surface and part of the lower surface was imaged. Dust observations with ALMA shows two rings and with SPHERE 2 additional rings were detected.[5] ALMA observations at 1.25 mm shows a spiral pattern,[6] which is also imprinted on the surface of the dusty part as seen by SPHERE. ALMA also observed the molecule 12CO, which traces the gas component of the disk. The CO observations show several deviations from Keplerian motion in the form of 16 kinks. The kinks and spirals could be caused by an undetected planet with a mass of 2-3 orbiting at about 110 AU. It is also possible that gravitational instability causes the patterns in this disk.

References

  1. Web site: Hensley . Kerry . 2022-08-01 . Evidence for a Hidden Planet in IM Lupi's Disk . 2023-05-27 . AAS Nova . en-US.
  2. Verrios . Harrison J. . Price . Daniel J. . Pinte . Christophe . Hilder . Thomas . Calcino . Josh . 2022-07-01 . Kinematic Evidence for an Embedded Planet in the IM Lupi Disk . The Astrophysical Journal . 934 . 1 . L11 . 10.3847/2041-8213/ac7f44 . 2207.02869 . 2022ApJ...934L..11V . 250334752 . 0004-637X . free .
  3. Salyk . Colette . Herczeg . Gregory J. . Brown . Joanna M. . Blake . Geoffrey A. . Pontoppidan . Klaus M. . van Dishoeck . Ewine F. . 2013-05-01 . Measuring Protoplanetary Disk Accretion with H I Pfund β . The Astrophysical Journal . 769 . 1 . 21 . 10.1088/0004-637X/769/1/21 . 1303.4804 . 2013ApJ...769...21S . 43905871 . 0004-637X.
  4. Cleeves . L. Ilsedore . Öberg . Karin I. . Wilner . David J. . Huang . Jane . Loomis . Ryan A. . Andrews . Sean M. . Czekala . Ian . 2016-12-01 . The Coupled Physical Structure of Gas and Dust in the IM Lup Protoplanetary Disk . The Astrophysical Journal . 832 . 2 . 110 . 10.3847/0004-637X/832/2/110 . 1610.00715 . 2016ApJ...832..110C . 118347827 . 0004-637X . free .
  5. Avenhaus . Henning . Quanz . Sascha P. . Garufi . Antonio . Perez . Sebastian . Casassus . Simon . Pinte . Christophe . Bertrang . Gesa H. -M. . Caceres . Claudio . Benisty . Myriam . Dominik . Carsten . 2018-08-01 . Disks around T Tauri Stars with SPHERE (DARTTS-S). I. SPHERE/IRDIS Polarimetric Imaging of Eight Prominent T Tauri Disks . The Astrophysical Journal . 863 . 1 . 44 . 10.3847/1538-4357/aab846 . 1803.10882 . 2018ApJ...863...44A . 119260968 . 0004-637X . free .
  6. Andrews . Sean M. . Huang . Jane . Pérez . Laura M. . Isella . Andrea . Dullemond . Cornelis P. . Kurtovic . Nicolás T. . Guzmán . Viviana V. . Carpenter . John M. . Wilner . David J. . Zhang . Shangjia . Zhu . Zhaohuan . Birnstiel . Tilman . Bai . Xue-Ning . Benisty . Myriam . Hughes . A. Meredith . 2018-12-01 . The Disk Substructures at High Angular Resolution Project (DSHARP). I. Motivation, Sample, Calibration, and Overview . The Astrophysical Journal . 869 . 2 . L41 . 10.3847/2041-8213/aaf741 . 1812.04040 . 2018ApJ...869L..41A . 118934372 . 0004-637X . free .