The availability of exquisite data and the development of new analysis techniques have enabled the study of emitting heights in protoplanetary disks. In this paper, we introduce a simple model linking the emitting height of CO to the disk surface density and temperature structure. We then apply the model to measurements of the emitting height and disk temperature conducted as part of exoALMA, integrated with additional legacy measurements from the MAPS Large Programme, to derive CO column densities and surface density profiles (assuming a CO abundance) for a total of 14 disks. A unique feature of the method we introduce to measure surface densities is that it can be applied to optically thick observations, rather than optically thin as conventionally done. While we use our method on a sample of well-studied disks where temperature structures have been derived using two emission lines, we show that reasonably accurate estimates can be obtained also when only one molecular transition is available. With our method, we obtain independent constraints from 12CO and 13CO, and we find they are in general good agreement using the standard 12C/13C isotopic ratio. The masses derived from our method are systematically lower compared with the values derived dynamically from the rotation curve if using an interstellar matter (ISM) CO abundance, implying that CO is depleted by a median factor ∼20 with respect to the ISM value, in line with other works that find that CO is depleted in protoplanetary disks.
exoALMA. XV. Interpreting the Height of CO Emission Layer / G.P. Rosotti, C. Longarini, T. Paneque-Carreño, G. Cataldi, M. Galloway-Sprietsma, S.M. Andrews, J. Bae, M. Barraza-Alfaro, M. Benisty, P. Curone, I. Czekala, S. Facchini, D. Fasano, M. Flock, M. Fukagawa, H. Garg, C. Hall, J. Huang, J.D. Ilee, A.F. Izquierdo, K. Kanagawa, G. Lesur, G. Lodato, R.A. Loomis, R. Orihara, C. Pinte, D.J. Price, J. Stadler, R. Teague, G.W. Fernandez, A.J. Winter, L. Wölfer, H. Yen, T.C. Yoshida, B. Zawadzki. - In: THE ASTROPHYSICAL JOURNAL LETTERS. - ISSN 2041-8205. - 984:1(2025 May), pp. L20.1-L20.18. [10.3847/2041-8213/adc42e]
exoALMA. XV. Interpreting the Height of CO Emission Layer
G.P. Rosotti
Primo
;C. LongariniSecondo
;P. Curone;S. Facchini;G. Lodato;
2025
Abstract
The availability of exquisite data and the development of new analysis techniques have enabled the study of emitting heights in protoplanetary disks. In this paper, we introduce a simple model linking the emitting height of CO to the disk surface density and temperature structure. We then apply the model to measurements of the emitting height and disk temperature conducted as part of exoALMA, integrated with additional legacy measurements from the MAPS Large Programme, to derive CO column densities and surface density profiles (assuming a CO abundance) for a total of 14 disks. A unique feature of the method we introduce to measure surface densities is that it can be applied to optically thick observations, rather than optically thin as conventionally done. While we use our method on a sample of well-studied disks where temperature structures have been derived using two emission lines, we show that reasonably accurate estimates can be obtained also when only one molecular transition is available. With our method, we obtain independent constraints from 12CO and 13CO, and we find they are in general good agreement using the standard 12C/13C isotopic ratio. The masses derived from our method are systematically lower compared with the values derived dynamically from the rotation curve if using an interstellar matter (ISM) CO abundance, implying that CO is depleted by a median factor ∼20 with respect to the ISM value, in line with other works that find that CO is depleted in protoplanetary disks.
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