A search for accreting young companions Virtual Observatory Resource

Authors
  1. Cugno G.
  2. Quanz S.P.
  3. Hunziker S.
  4. Stolker T.
  5. Schmid H.M.
  6. Avenhaus H.,Baudoz P.
  7. Bohn A.J.
  8. Bonnefoy M.
  9. Buenzli E.
  10. Chauvin G.
  11. Cheetham A.,Desidera S.
  12. Dominik C.
  13. Feautrier P.
  14. Feldt M.
  15. Ginski C.
  16. Girard J.H.,Gratton R.
  17. Hagelberg J.
  18. Hugot E.
  19. Janson M.
  20. Lagrange A.-M.
  21. Langlois M.,Magnard Y.
  22. Maire A.-L.
  23. Menard F.
  24. Meyer M.
  25. Milli J.
  26. Mordasini C.,Pinte C.
  27. Pragt J.
  28. Roelfsema R.
  29. Rigal F.
  30. Szulagyi J.
  31. van Boekel R.,van der Plas G.
  32. Vigan A.
  33. Wahhaj Z.
  34. Zurlo A.
  35. Published by
    CDS
Abstract

In recent years, our understanding of giant planet formation progressed substantially. There have even been detections of a few young protoplanet candidates still embedded in the circumstellar disks of their host stars. The exact physics that describes the accretion of material from the circumstellar disk onto the suspected circumplanetary disk and eventually onto the young, forming planet is still an open question. We seek to detect and quantify observables related to accretion processes occurring locally in circumstellar disks, which could be attributed to young forming planets. We focus on objects known to host protoplanet candidates and/or disk structures thought to be the result of interactions with planets. We analyzed observations of six young stars and their surrounding environments with the SPHERE/ZIMPOL instrument on the Very Large Telescope (VLT) in the H{alpha} filter (656nm) and a nearby continuum filter (644.9nm). We redetect the known accreting M-star companion HD142527 B with the highest published signal to noise to date in both H{alpha} and the continuum. No other companions are detected. We analyzed observations of six young stars (age 3.5-10Myr) and their surrounding environments with the SPHERE/ZIMPOL instrument on the Very Large Telescope (VLT) in the H{alpha}filter (656nm) and a nearby continuum filter (644.9nm). We applied several point spread function (PSF) subtraction techniques to reach the highest possible contrast near the primary star, specifically investigating regions where forming companions were claimed or have been suggested based on observed disk morphology.

Keywords
  1. emission-line-stars
  2. visible-astronomy
  3. h-alpha-photometry
Bibliographic source Bibcode
2019A&A...622A.156C
See also HTML
https://cdsarc.cds.unistra.fr/viz-bin/cat/J/A+A/622/A156
IVOA Identifier IVOID
ivo://CDS.VizieR/J/A+A/622/A156
Document Object Identifer DOI
doi:10.26093/cds/vizier.36220156

Access

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http://vizier.cds.unistra.fr/viz-bin/VizieR-2?-source=J/A+A/622/A156
https://vizier.iucaa.in/viz-bin/VizieR-2?-source=J/A+A/622/A156
http://vizieridia.saao.ac.za/viz-bin/VizieR-2?-source=J/A+A/622/A156
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For use with a cone search client (e.g., TOPCAT).
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https://vizier.iucaa.in/viz-bin/conesearch/J/A+A/622/A156/list?
http://vizieridia.saao.ac.za/viz-bin/conesearch/J/A+A/622/A156/list?

History

2019-02-15T08:25:44Z
Resource record created
2019-02-15T08:25:44Z
Created
2019-02-26T12:45:58Z
Updated

Contact

Name
CDS support team
Postal Address
CDS, Observatoire de Strasbourg, 11 rue de l'Universite, F-67000 Strasbourg, France
E-Mail
cds-question@unistra.fr