Collisions between planetary ring particles and in some protoplanetary disk environments occur at speeds below 10 m/s. The particles involved in these low-velocity collisions have negligible gravity and may be made of or coated with smaller dust grains and aggregates. We undertook microgravity impact experiments to better understand the dissipation of energy and production of ejecta in these collisions. Here we report the results of impact experiments of solid projectiles into beds of granular material at impact velocities from 0.2 to 2.3 m/s performed under near-weightless conditions on the NASA KC-135 Weightless Wonder V. Impactors of various densities and radii of I and 2 cm were launched into targets of quartz sand, JSC-1 lunar regolith...
The dusty regolith covering the surfaces of planetary satellites and asteroids is subject to environ...
Context. Planetisimals are thought to be formed from the solid material of a protoplanetary disk by ...
Context. Slow interactions on small body surfaces occur both naturally and through human interventio...
Collisions between planetary ring particles and in some protoplanetary disk environments occur at sp...
Low-velocity impacts are common on regolith surfaces of planetary bodies. We have conducted a series...
We present the results of an experimental investigation of low-energy collisions between cm-scale an...
Collisions between planetary ring particles and in some protoplanetary disk environments occur at lo...
International audienceIn order to improve our understanding of landing on small bodies and of astero...
The dusty regolith covering the surfaces of asteroids and planetary satellites differs in size, shap...
Abstract The dusty regolith covering the surfaces of asteroids and planetary satellites differs in s...
Context. In situ observations of small asteroids, such as Itokawa, Ryugu, and Bennu, show that surfa...
International audienceWith the flourishing number of small body missions that involve surface intera...
Collisions between centimeter- to decimeter-sized dusty bodies are important to understand the mecha...
An understanding of impact processes in low- and microgravity environments would be advanced signifi...
Impact is an ubiquitous physical process in the solar system. It occurs on all solid bodies and oper...
The dusty regolith covering the surfaces of planetary satellites and asteroids is subject to environ...
Context. Planetisimals are thought to be formed from the solid material of a protoplanetary disk by ...
Context. Slow interactions on small body surfaces occur both naturally and through human interventio...
Collisions between planetary ring particles and in some protoplanetary disk environments occur at sp...
Low-velocity impacts are common on regolith surfaces of planetary bodies. We have conducted a series...
We present the results of an experimental investigation of low-energy collisions between cm-scale an...
Collisions between planetary ring particles and in some protoplanetary disk environments occur at lo...
International audienceIn order to improve our understanding of landing on small bodies and of astero...
The dusty regolith covering the surfaces of asteroids and planetary satellites differs in size, shap...
Abstract The dusty regolith covering the surfaces of asteroids and planetary satellites differs in s...
Context. In situ observations of small asteroids, such as Itokawa, Ryugu, and Bennu, show that surfa...
International audienceWith the flourishing number of small body missions that involve surface intera...
Collisions between centimeter- to decimeter-sized dusty bodies are important to understand the mecha...
An understanding of impact processes in low- and microgravity environments would be advanced signifi...
Impact is an ubiquitous physical process in the solar system. It occurs on all solid bodies and oper...
The dusty regolith covering the surfaces of planetary satellites and asteroids is subject to environ...
Context. Planetisimals are thought to be formed from the solid material of a protoplanetary disk by ...
Context. Slow interactions on small body surfaces occur both naturally and through human interventio...