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Complex crater formation by low energy impactors
Complex crater formation by low energy impactors
by Oblesrczuk, Thiago , Schoenmaker, Jeroen , Tardini Paulino, Rodrigo , Hetem Junior, Annibal , Lencioni Aliboni, Julia
in Algorithms / Civil engineering / Craters / Droplets / Energy / Entrapment / Experiments / Geology / Granular materials / Impactors / Models, Theoretical / Observations / Origin / Planetary geology / Planets / Simulation
2025
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Complex crater formation by low energy impactors
by Oblesrczuk, Thiago , Schoenmaker, Jeroen , Tardini Paulino, Rodrigo , Hetem Junior, Annibal , Lencioni Aliboni, Julia
in Algorithms / Civil engineering / Craters / Droplets / Energy / Entrapment / Experiments / Geology / Granular materials / Impactors / Models, Theoretical / Observations / Origin / Planetary geology / Planets / Simulation
2025
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Complex crater formation by low energy impactors
Complex crater formation by low energy impactors
by Oblesrczuk, Thiago , Schoenmaker, Jeroen , Tardini Paulino, Rodrigo , Hetem Junior, Annibal , Lencioni Aliboni, Julia
in Algorithms / Civil engineering / Craters / Droplets / Energy / Entrapment / Experiments / Geology / Granular materials / Impactors / Models, Theoretical / Observations / Origin / Planetary geology / Planets / Simulation
2025

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Mohammed Bin Rashid Library /
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Complex crater formation by low energy impactors
Complex crater formation by low energy impactors
Journal Article

Complex crater formation by low energy impactors

Oblesrczuk, Thiago,
Schoenmaker, Jeroen,
Tardini Paulino, Rodrigo,
Hetem Junior, Annibal,
Lencioni Aliboni, Julia
2025
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Overview
We investigate the formation of complex craters in low-energy laboratory impacts using layered granular beds and a range of impactors, including solid, liquid, and granular types. Shallow granular targets change how the impact energy is dissipated, resulting in power-law scalings for the crater diameter that depart from those observed in homogeneous targets. An adaptation of the well-known Schmidt-Holsapple scaling was made to explain the impacts made from the liquid droplets. Furthermore, we show that the layered target promotes the formation of complex crater features, including flat floors and central peaks, even at low impact energies, through an essentially distinct process when compared to high energy impacts. In particular, granular impactors consistently produce ring-shaped craters, a result explained by a mechanism analogous to air entrapment in droplet impacts. This ring-like morphology was also successfully reproduced in simulations using a modelling approach developed in this work. These findings suggest that layered targets can reproduce features typical of planetary-scale complex craters at the laboratory scale, opening new avenues for small-scale experimental studies of impact dynamics with potential applications in planetary geology and civil engineering.
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Publisher
Public Library of Science,Public Library of Science (PLoS)
Subject

Algorithms

/ Civil engineering

/ Craters

/ Droplets

/ Energy

/ Entrapment

/ Experiments

/ Geology

/ Granular materials

/ Impactors

/ Models, Theoretical

/ Observations

/ Origin

/ Planetary geology

/ Planets

/ Simulation

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