The distribution of heavy elements is anomalously low in the asteroid main belt region compared with elsewhere in the solar system. Observational surveys also indicate a deficit in the number of small (less than or similar to 50 km size) asteroids, which is two orders of magnitude lower than what is expected from the single power-law distribution that results from a collisional coagulation and fragmentation equilibrium. Here, we consider the possibility that a major fraction of the original asteroid population may have been cleared out by Jupiter's secular resonance, as it swept through the main asteroid belt during the depletion of the solar nebula. This effect leads to the excitation of the asteroids' orbital eccentricities. Con...
We investigate the flux of main-belt asteroid fragments into resonant orbits converting them into ne...
The asteroid belt was dynamically shaped during and after planet formation. Despite representing a b...
International audienceContext. Understanding the conditions that lead to the formation of planetesim...
The main asteroid belt spans ~2-4 AU in heliocentric distance and is sparsely populated by rocky deb...
The asteroid belt is found today in a dramatically different state than that immediately following i...
We calculate the eccentricity excitation of asteroids produced by the sweeping ν6 secular resonance ...
The size distribution of main-belt of asteroids is determined primarily by collisional processes. La...
International audienceContaining only a few percent the mass of the moon, the current asteroid belt ...
The impact crater record of the terrestrial planets and the Moon is owed to two populations of impac...
International audienceThe asteroid main belt between Mars and Jupiter holds evidences from the early...
At present, approximately 1500 asteroids are known to evolve inside or sticked to the exterior 1:2 r...
International audienceThe asteroid belt is characterized by a large dynamical excitation, an importa...
A large disruption in the main asteroid belt can cause a large flux, an “asteroid shower”, on the te...
International audienceThe asteroid main belt between Mars and Jupiter holds evidences fromthe early ...
The asteroids probably experienced significant collisional evolution while the solar nebula was pres...
We investigate the flux of main-belt asteroid fragments into resonant orbits converting them into ne...
The asteroid belt was dynamically shaped during and after planet formation. Despite representing a b...
International audienceContext. Understanding the conditions that lead to the formation of planetesim...
The main asteroid belt spans ~2-4 AU in heliocentric distance and is sparsely populated by rocky deb...
The asteroid belt is found today in a dramatically different state than that immediately following i...
We calculate the eccentricity excitation of asteroids produced by the sweeping ν6 secular resonance ...
The size distribution of main-belt of asteroids is determined primarily by collisional processes. La...
International audienceContaining only a few percent the mass of the moon, the current asteroid belt ...
The impact crater record of the terrestrial planets and the Moon is owed to two populations of impac...
International audienceThe asteroid main belt between Mars and Jupiter holds evidences from the early...
At present, approximately 1500 asteroids are known to evolve inside or sticked to the exterior 1:2 r...
International audienceThe asteroid belt is characterized by a large dynamical excitation, an importa...
A large disruption in the main asteroid belt can cause a large flux, an “asteroid shower”, on the te...
International audienceThe asteroid main belt between Mars and Jupiter holds evidences fromthe early ...
The asteroids probably experienced significant collisional evolution while the solar nebula was pres...
We investigate the flux of main-belt asteroid fragments into resonant orbits converting them into ne...
The asteroid belt was dynamically shaped during and after planet formation. Despite representing a b...
International audienceContext. Understanding the conditions that lead to the formation of planetesim...