Research Output
Journal Articles
Berne, A., Simons, M., Bhageri, A., Keane, J., Meyer, C., and Park, R., Long-Term Tidal Heating at Enceladus Inferred from Viscous Topographic Relaxation
Berne, A., Puel, S., Simons, M., Martens, H. (...) Tidal Tomography Constrains the Buoyancy of South America's Heterogenous Lithosphere
Berne, A., Nelson, K., Chung, N., and Stock, J., Monitoring CO2 Flux over a Volcanic Edifice using Unmanned Aerial Vehicles
Simons, M., Berne, A., Does Enceladus Have a Global Ocean?
And many more..
In preparation
Last Updated 05/2025
Submitted / In Review
Bagheri, A., Simons, M., Park, R.S., Berne, A., Vance, S., and Daswani, M., Geodetic Exploration of the Interior Structure of Enceladus (submitted to The Planetary Science Journal). Preprint DOI:10.48550/arXiv.2505.14743
Meyer, C., Stubblefield, A., Minchew, B., Pegler, S., Berne, A., Buffo, J.J., Tomlinson, T., Implications of shallow-shell models for topographic relaxation on icy satellites Preprint DOI:10.48550/arXiv.2504.20095
Published
Rovira-Navarro M., Matsuyama, M., Dirkx, D., Berne, A., Calliess, D., Foyelle, S. Prospects of Using Tidal Tomography to Constrain Ganymede's Interior. Geophysical Research Letters, e2025GL114708 (2025) DOI: 10.1029/2025GL114708
Park R.S., Riedel J. E. , Brandon E. , Harvey N. E., Manafi S. , Smart M. C., Towfic Z. J., Berne, A., Bertiger W.I., Keane J. T., Konopliv A. S., Mastrodemos N., Simons M., Vance S. D., and Vaughan A. T. , Gravity Imaging Radio Observer (GIRO) for Planetary Science and Mission Opportunities. The Planetary Science Journal 6.5 (2025): 127. DOI: 10.3847/PSJ/adceea
Park, R.S., Berne, A., Konopliv, A.S., Keane, J.T., Matsuyama, I., Nimmo, F., Rovira-Navarro, M., Panning, M., Simons, M., Stevenson, D.J., Weber, R.C., Thermal asymmetry in the Moon’s mantle inferred from monthly tidal response. Nature 641, 1188–1192 (2025). DOI: 10.1038/s41586-025-08949-5
Spitale, J. N., Tigges, M. D., Berne, A., Rhoden, A., Hurford, T. A., & Webster, K. D. (2025). Curtain-based Maps of Eruptive Activity in Enceladus’s South-polar Terrain at 15 Cassini Epochs. The Planetary Science Journal, 6(3), 67. DOI: 10.3847/PSJ/adb7d7
Rovira-Navarro, M., Matsuyama, I., and Berne, A. A spectral method to compute the tides of laterally heterogeneous bodies. The Planetary Science Journal, 5(5), 129. DOI: 10.3847/PSJ/ad381f
Berne, A., Simons, M., Keane, J. T., Leonard, E. J., & Park, R. S. (2024). Jet activity on Enceladus linked to tidally driven strike-slip motion along tiger stripes. Nature Geoscience, 17(5), 385-391. DOI: 10.1038/s41561-024-01418-0
Nelson, K.M., Jiménez, C., Deering, C.D., de Moor, M.J., Blackstock, J.M., Broccardo, S.P., Schwandner, F.M., Fisher, J.B., Chatterjee, S., Induni, G.A. and Rodriguez, A., ... Berne, A., ... (2024).Total CO2 budget estimate and degassing dynamics for an active stratovolcano: Turrialba Volcano, Costa Rica. Journal of Volcanology and Geothermal Research, 450, 108075. DOI: 10.1016/j.jvolgeores.2024.108075
Park, R. S., Mastrodemos, N., Jacobson, R. A., Berne, A., Vaughan, A. T., Hemingway, D. J., ... & Vance, S. (2024). The global shape, gravity field, and libration of Enceladus. Journal of Geophysical Research: Planets, 129(1), e2023JE008054 DOI:10.1029 /2023JE008054
Berne, A., Simons, M., Keane, J. T., & Park, R. S. (2023). Using Tidally‐Driven Elastic Strains to Infer Regional Variations in Crustal Thickness at Enceladus. Geophysical Research Letters, 50(22), e2023GL106656. DOI: 10.1029/2023GL106656
Berne, A., Simons, M., Keane, J. T., & Park, R. S. (2023). Inferring the mean thickness of the outer ice shell of Enceladus from diurnal crustal deformation. Journal of Geophysical Research: Planets, 128(6), e2022JE007712. DOI: 10.1029/2022JE007712
Berne, A., Zhang, T., Shomar, J., Ferrer, A. J., Valdes, A., Ohyama, T., & Klein, M. (2023). Mechanical vibration patterns elicit behavioral transitions and habituation in crawling Drosophila larvae. Elife, 12, e69205. DOI: https://doi.org/10.7554/eLife.69205
Berne, A., Petersson, K., Tullis, I. D., Newman, R. G., & Vojnovic, B. (2021). Monitoring electron energies during FLASH irradiations. Physics in Medicine & Biology, 66(4), 045015. DOI: 10.1088/1361-6560/abd672