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arxiv: 2002.07894 · v1 · pith:Q36GZ7TS · submitted 2020-02-18 · astro-ph.EP

Fragmentation modelling of the August 2019 impact on Jupiter

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classification astro-ph.EP
keywords objectaugustcasesdetermineenergyfragmentationimpactinitial
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On 7th August 2019, an impact flash lasting $\sim1$s was observed on Jupiter. The video of this event was analysed to obtain the lightcurve and determine the energy release and initial mass. We find that the impactor released a total energy of $96-151$ kilotons of TNT, corresponding to an initial mass between $190-260$ metric tonnes with a diameter between $4-10$m. We developed a fragmentation model to simulate the atmospheric breakup of the object and reproduce the lightcurve. We model three different materials: cometary, stony and metallic at speeds of $60$, $65 $ and $70$ km/s to determine the material makeup of the impacting object. The slower cases are best fit by a strong, metallic object while the faster cases require a weaker material.

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