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Autori principali: Domínguez-Jamett, Oriana, Casassus, Simon, Liu, Hauyu Baobab, Aoyama, Yuhiko, Cárcamo, Miguel, Weber, Philipp, Chrenko, Ondrej, Marleau, Gabriel-Dominique, Ercolano, Barbara, Szulágyi, Judit
Natura: Preprint
Pubblicazione: 2025
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Accesso online:https://arxiv.org/abs/2507.21970
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author Domínguez-Jamett, Oriana
Casassus, Simon
Liu, Hauyu Baobab
Aoyama, Yuhiko
Cárcamo, Miguel
Weber, Philipp
Chrenko, Ondrej
Marleau, Gabriel-Dominique
Ercolano, Barbara
Szulágyi, Judit
author_facet Domínguez-Jamett, Oriana
Casassus, Simon
Liu, Hauyu Baobab
Aoyama, Yuhiko
Cárcamo, Miguel
Weber, Philipp
Chrenko, Ondrej
Marleau, Gabriel-Dominique
Ercolano, Barbara
Szulágyi, Judit
contents PDS 70c is a source of Ha emission and variable sub-mm signal. Understanding its emission mechanisms may enable observations of accretion rates and physical conditions in the circum-planetary environment. We report ALMA observations of PDS 70 at 145 GHz (Band 4), 343.5 GHz (Band 7) and 671 GHz (Band 9) and compare with data at 97.5 GHz (Band 3), taken within two months. The radio spectrum (SED) is analyzed with an analytical circumplanetary disk (CPD) model. In a novel approach including the free-free continuum from H I, metals (e.g. K I) and H-. New detections in Bands 3 (tentative at 2.6sigma), 4 (5sigma), and 7 (re-detected at 9sigma) are consistent with optically thick thermal emission from PDS 70c (spectral index 2+-0.2). However, a Band 9 non-detection lies 2.6sigma below an optically thick extrapolation. A viscous dusty disk is inconsistent with the data, even with the inclusion of ionised jets. Interestingly, the central temperatures in such CPD models are high enough to ionise H I, with huge emission measures and an optically thick spectrum that marginally accounts for the SED (within 3sigma of Band 9). By contrast, uniform-slab models suggest much lower emission measures to account for the Band 9 drop, with ionisation fractions ~1e-7, and an outer radius ~0.1 au. Such conditions are recovered if the CPD interacts with a planetary magnetic field, leading to a radially variable viscosity alpha(R)<~1 and midplane temperatures ~1e3 K that regulate metal ionisation. However, the H- opacity still results in an optically thick SED, overshooting Band 9. We find that the optically thin turnover at ~600 GHz is only recovered if a thin shocked layer is present at the CPD surface, as suggested by simulations. A photospheric shock or accretion funnels are ruled out as radio emission sources because their small solid angles would require T~1e6 K, which is unrealistic for planetary accretion.
format Preprint
id arxiv_https___arxiv_org_abs_2507_21970
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Multi-frequency observations of PDS 70c: Radio emission mechanisms in the circum-planetary environment
Domínguez-Jamett, Oriana
Casassus, Simon
Liu, Hauyu Baobab
Aoyama, Yuhiko
Cárcamo, Miguel
Weber, Philipp
Chrenko, Ondrej
Marleau, Gabriel-Dominique
Ercolano, Barbara
Szulágyi, Judit
Earth and Planetary Astrophysics
PDS 70c is a source of Ha emission and variable sub-mm signal. Understanding its emission mechanisms may enable observations of accretion rates and physical conditions in the circum-planetary environment. We report ALMA observations of PDS 70 at 145 GHz (Band 4), 343.5 GHz (Band 7) and 671 GHz (Band 9) and compare with data at 97.5 GHz (Band 3), taken within two months. The radio spectrum (SED) is analyzed with an analytical circumplanetary disk (CPD) model. In a novel approach including the free-free continuum from H I, metals (e.g. K I) and H-. New detections in Bands 3 (tentative at 2.6sigma), 4 (5sigma), and 7 (re-detected at 9sigma) are consistent with optically thick thermal emission from PDS 70c (spectral index 2+-0.2). However, a Band 9 non-detection lies 2.6sigma below an optically thick extrapolation. A viscous dusty disk is inconsistent with the data, even with the inclusion of ionised jets. Interestingly, the central temperatures in such CPD models are high enough to ionise H I, with huge emission measures and an optically thick spectrum that marginally accounts for the SED (within 3sigma of Band 9). By contrast, uniform-slab models suggest much lower emission measures to account for the Band 9 drop, with ionisation fractions ~1e-7, and an outer radius ~0.1 au. Such conditions are recovered if the CPD interacts with a planetary magnetic field, leading to a radially variable viscosity alpha(R)<~1 and midplane temperatures ~1e3 K that regulate metal ionisation. However, the H- opacity still results in an optically thick SED, overshooting Band 9. We find that the optically thin turnover at ~600 GHz is only recovered if a thin shocked layer is present at the CPD surface, as suggested by simulations. A photospheric shock or accretion funnels are ruled out as radio emission sources because their small solid angles would require T~1e6 K, which is unrealistic for planetary accretion.
title Multi-frequency observations of PDS 70c: Radio emission mechanisms in the circum-planetary environment
topic Earth and Planetary Astrophysics
url https://arxiv.org/abs/2507.21970