A magnetically driven disc wind in the inner disc of PDS 70

PDS 70 is so far the only young disc where multiple planets have been detected by direct imaging. The disc has a large cavity when seen at sub-mm and NIR wavelengths, which hosts two massive planets. This makes PDS 70 the ideal target to study the physical conditions in a strongly depleted inner dis...

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Bibliographic Details
Published in:arXiv.org 2023-08
Main Authors: Campbell-White, Justyn, Manara, Carlo F, Benisty, Myriam, Natta, Antonella, Claes, Rik A B, Frasca, Antonio, Bae, Jaehan, Facchini, Stefano, Isella, Andrea, PĂ©rez, Laura, Pinilla, Paola, Sicilia-Aguilar, Aurora, Teague, Richard
Format: Article
Language:English
Subjects:
Blue shift
Deposition
Emission
Holes
Jupiter
Luminosity
Planets
Star formation
Wind
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Summary:PDS 70 is so far the only young disc where multiple planets have been detected by direct imaging. The disc has a large cavity when seen at sub-mm and NIR wavelengths, which hosts two massive planets. This makes PDS 70 the ideal target to study the physical conditions in a strongly depleted inner disc shaped by two giant planets, and in particular to test whether disc winds can play a significant role in its evolution. Using X-Shooter and HARPS spectra, we detected for the first time the wind-tracing [O I] 6300AA line, and confirm the low-moderate value of mass-accretion rate in the literature. The [O I] line luminosity is high with respect to the accretion luminosity when compared to a large sample of discs with cavities in nearby star-forming regions. The FWHM and blue-shifted peak of the [O I] line suggest an emission in a region very close to the star, favouring a magnetically driven wind as the origin. We also detect wind emission and high variability in the He I 10830AA line, which is unusual for low-accretors. We discuss that, although the cavity of PDS 70 was clearly carved out by the giant planets, the substantial inner disc wind could also have had a significant contribution to clearing the inner-disc.
ISSN:2331-8422