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NeuralCMS: A deep learning approach to study Jupiter’s interior
Astronomy & Astrophysics ( IF 5.4 ) Pub Date : 2024-05-30 , DOI: 10.1051/0004-6361/202450223 M. Ziv , E. Galanti , A. Sheffer , S. Howard , T. Guillot , Y. Kaspi
Astronomy & Astrophysics ( IF 5.4 ) Pub Date : 2024-05-30 , DOI: 10.1051/0004-6361/202450223 M. Ziv , E. Galanti , A. Sheffer , S. Howard , T. Guillot , Y. Kaspi
Context. NASA’s Juno mission provided exquisite measurements of Jupiter’s gravity field that together with the Galileo entry probe atmospheric measurements constrains the interior structure of the giant planet. Inferring its interior structure range remains a challenging inverse problem requiring a computationally intensive search of combinations of various planetary properties, such as the cloud-level temperature, composition, and core features, requiring the computation of ∼109 interior models.Aims. We propose an efficient deep neural network (DNN) model to generate high-precision wide-ranged interior models based on the very accurate but computationally demanding concentric MacLaurin spheroid (CMS) method.Methods. We trained a sharing-based DNN with a large set of CMS results for a four-layer interior model of Jupiter, including a dilute core, to accurately predict the gravity moments and mass, given a combination of interior features. We evaluated the performance of the trained DNN (NeuralCMS) to inspect its predictive limitations.Results. NeuralCMS shows very good performance in predicting the gravity moments, with errors comparable with the uncertainty due to differential rotation, and a very accurate mass prediction. This allowed us to perform a broad parameter space search by computing only ∼104 actual CMS interior models, resulting in a large sample of plausible interior structures, and reducing the computation time by a factor of 105. Moreover, we used a DNN explainability algorithm to analyze the impact of the parameters setting the interior model on the predicted observables, providing information on their nonlinear relation.
更新日期:2024-05-30
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