Observability of Photoevaporation Signatures in the Dust Continuum Emission of Transition Discs
Autor: | Giovanni Picogna, Carolina Schäfer, Barbara Ercolano, Christian Rab, Rafael Franz, Matías Gárate |
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Rok vydání: | 2023 |
Předmět: | |
DOI: | 10.48550/arxiv.2305.06014 |
Popis: | Photoevaporative disc winds play a key role in our understanding of circumstellar disc evolution, especially in the final stages, and they might affect the planet formation process and the final location of planets. The study of transition discs (i.e. discs with a central dust cavity) is central for our understanding of the photoevaporation process and disc dispersal. However, we need to distinguish cavities created by photoevaporation from those created by giant planets. Theoretical models are necessary to identify possible observational signatures of the two different processes, and models to find the differences between the two processes are still lacking. In this paper we study a sample of transition discs obtained from radiation-hydrodynamic simulations of internally photoevaporated discs, and focus on the dust dynamics relevant for current ALMA observations. We then compared our results with gaps opened by super Earths/giant planets, finding that the photoevaporated cavity steepness depends mildly on gap size, and it is similar to that of a 1 Jupiter mass planet. However, the dust density drops less rapidly inside the photoevaporated cavity compared to the planetary case due to the less efficient dust filtering. This effect is visible in the resulting spectral index, which shows a larger spectral index at the cavity edge and a shallower increase inside it with respect to the planetary case. The combination of cavity steepness and spectral index might reveal the true nature of transition discs. Comment: 10 pages, 7 figures, accepted for publication in MNRAS |
Databáze: | OpenAIRE |
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