Transitions in Rubble-pile Asteroid Chaotic Environment and granular Structures

ERC (European Research Council)HORIZON-ERCID: 101077758
EC Contribution
€14,998
Consortium Size
1 orgs
Start Year
2023
Summary

We are now living exciting times for asteroid exploration. The increasing availability of in-situ observation data, providing unprecedented level of detail, makes the study of asteroids an exciting and living frontier. Asteroids are rubble piles, i.e., gravitational aggregates of loosely consolidated material. However, no direct measurements of asteroids interior exist and little is known about the mechanisms governing their formation and evolution. Not only limited by a lack of data, the understanding of asteroids properties is challenged at afundamental level by their rubble-pile nature. This makes their dynamics subject to the laws of granular mechanics, one of the major unsolved problems in physics.TRACES enables a new paradigm for the characterization of granular systems in asteroid-related scenarios. The ambition is to demonstrate that the macroscopic behaviour of granular media in asteroid environment can be inferred from local properties of the grain. The methodology lays its foundation on a cutting-edge simulation tool, able to resolve the dynamics of grains to particle-scale precision, and a theoretical framework, able to decode the chaotic nature of particle-scale dynamics.TRACES hypothesis is validated through theoretical, numerical and experimental work. The ability of the methodology to characterize and identify transitions between dynamical regimes of granular media, is tested gradually, for increasing levels of realism, ranging between proof-of-concept, laboratory scenarios involving experiments in vacuum/low-g, and full-scale scenarios involving asteroid mission data.If successful, TRACES will enable the characterization of surface and internal properties of asteroids with limited observation data. This will play a crucial role to enable the next breakthrough in asteroid science, as well as efficient/cost-effective design of the next generation of space missions to explore and exploit asteroids, including planetary defence applications.

Consortium (1)

Project Results (6)

Source: CORDIS, the EU research results database.

Publications (6)
Astronomy and Astrophysics
Astronomy & Astrophysics· 2025DOI
I. Fodde; F. Ferrari
Compressibility and strength of pebble piles
Astronomy & Astrophysics· 2025DOI
I. L. San Sebastián, L. Klar, M. Jutzi, J. Blum
Contact dynamics investigation towards microgravity experiment for asteroid-related scenarios
Multibody System Dynamics· 2025DOI
Samuele Vaghi; Iosto Fodde; Paolo Panicucci; Alessia Cremasco; Fabio Ferrari
Nature Communications
Nature Communications· 2025DOI
Fabio Ferrari; Paolo Panicucci; Gianmario Merisio; Carmine Giordano; Mattia Pugliatti; Jian-Yang Li; Eugene G. Fahnestock; Sabina D. Raducan; Martin Jutzi; Stefania Soldini; Masatoshi Hirabayashi; Colby C. Merrill; Patrick Michel; Fernando Moreno; Gonzalo Tancredi; Jessica M. Sunshine; Jens Ormö; Isabel Herreros; Harrison Agrusa; Ozgur Karatekin; Yun Zhang; Nancy L. Chabot; Andrew F. Cheng; Derek C. Richardson; Andrew S. Rivkin; Adriano Campo Bagatin; Tony L. Farnham; Stavro Ivanovski; Alice Lucchetti; Maurizio Pajola; Alessandro Rossi; Daniel J. Scheeres; Filippo Tusberti
Achievement of the Planetary Defense Investigations of the Double Asteroid Redirection Test (DART) Mission
The Planetary Science Journal· 2024DOI
Chabot, Nancy; Rivkin, Andrew; Cheng, Andrew; Barnouin, Olivier; Fahnestock, Eugene; Richardson, Derek; Stickle, Angela; Thomas, Cristina; Ernst, Carolyn; Terik Daly, R.; Dotto, Elisabetta; Zinzi, Angelo; Chesley, Steven; Moskovitz, Nicholas; Barbee, Brent; Abell, Paul; Agrusa, Harrison; Bannister, Michele; Beccarelli, Joel; Bekker, Dmitriy; Bruck Syal, Megan; Buratti, Bonnie; Busch, Michael; Campo Bagatin, Adriano; Chatelain, Joseph; Chocron, Sidney; Collins, Gareth; Conversi, Luca; Davison, Thomas; Decoster, Mallory; Prasanna Deshapriya, J; Eggl, Siegfried; Espiritu, Raymond; Farnham, Tony; Ferrais, Marin; Ferrari, Fabio; Föhring, Dora; Fuentes-Muñoz, Oscar; Gai, Igor; Giordano, Carmine; Glenar, David; Gomez, Edward; Graninger, Dawn; Green, Simon; Greenstreet, Sarah; Hasselmann, Pedro; Herreros, Isabel; Hirabayashi, Masatoshi; Husárik, Marek; Ieva, Simone; Ivanovski, Stavro; Jackson, Samuel; Jehin, Emmanuel; Jutzi, Martin; Karatekin, Ozgur; Knight, Matthew; Kolokolova, Ludmilla; Kumamoto, Kathryn; Küppers, Michael; La Forgia, Fiorangela; Lazzarin, Monica; Li, Jian-Yang; Lister, Tim; Lolachi, Ramin; Lucas, Michael; Lucchetti, Alice; Luther, Robert; Makadia, Rahil; Mazzotta Epifani, Elena; Mcmahon, Jay; Merisio, Gianmario; Merrill, Colby; Meyer, Alex; Michel, Patrick; Micheli, Marco; Migliorini, Alessandra; Minker, Kate; Modenini, Dario; Moreno, Fernando; Murdoch, Naomi; Murphy, Brian; Naidu, Shantanu; Nair, Hari; Nakano, Ryota; Opitom, Cyrielle; Ormö, Jens; Michael Owen, J.; Pajola, Maurizio; Palmer, Eric; Palumbo, Pasquale; Panicucci, Paolo; Parro, Laura; Pearl, Jason; Penttilä, Antti; Perna, Davide; Petrescu, Elisabeta; Pravec, Petr; Raducan, Sabina; Ramesh, K; Ridden-Harper, Ryan; Rizos, Juan; Rossi, Alessandro; Roth, Nathan; Rożek, Agata; Rozitis, Benjamin; Ryan, Eileen; Ryan, William; Sánchez, Paul; Santana-Ros, Toni; Scheeres, Daniel; Scheirich, Peter; Berk Senel, Cem; Snodgrass, Colin; Soldini, Stefania; Souami, Damya; Statler, Thomas; Street, Rachel; Stubbs, Timothy; Sunshine, Jessica; Tan, Nicole; Tancredi, Gonzalo; Tinsman, Calley; Tortora, Paolo; Tusberti, Filippo; Walker, James; Waller, C. Dany; Wünnemann, Kai; Zannoni, Marco; Zhang, Yun
The Dynamical State of the Didymos System before and after the DART Impact
The Planetary Science Journal· 2024DOI
Derek C. Richardson; Harrison F. Agrusa; Brent Barbee; Rachel H. Cueva; Fabio Ferrari; Seth A. Jacobson; Rahil Makadia; Alex J. Meyer; Patrick Michel; Ryota Nakano; Yun Zhang; Paul Abell; Colby C. Merrill; Adriano Campo Bagatin; Olivier Barnouin; Nancy L. Chabot; Andrew F. Cheng; Steven R. Chesley; R. Terik Daly; Siegfried Eggl; Carolyn M. Ernst; Eugene G. Fahnestock; Tony L. Farnham; Oscar Fuentes-Muñoz; Edoardo Gramigna; Douglas P. Hamilton; Masatoshi Hirabayashi; Martin Jutzi; Josh Lyzhoft; Riccardo Lasagni Manghi; Jay McMahon; Fernando Moreno; Naomi Murdoch; Shantanu P. Naidu; Eric E. Palmer; Paolo Panicucci; Laurent Pou; Petr Pravec; Sabina D. Raducan; Andrew S. Rivkin; Alessandro Rossi; Paul Sánchez; Daniel J. Scheeres; Peter Scheirich; Stephen R. Schwartz; Damya Souami; Gonzalo Tancredi; Paolo Tanga; Paolo Tortora; Josep M. Trigo-Rodríguez; Kleomenis Tsiganis; John Wimarsson; Marco Zannoni