Toshiko Takata scite author profile

Abstract.Three-dimensional numerical simulations of the impact of Comet Shoemaker -Levy 9 on Jupiter and the resulting vapor plume expansion were conducted using the Smoothed Particle Hydrodynamics (SPH) method. An icy body with a diameter of 2 km can penetrate to an altitude of -350 km (0 km = 1 bar) and most of the incident kinetic energy is transferred to the atmosphere between -100 km to -250 km. This energy is converted to potential energy of the resulting gas plume. The unconfined plume expands vertically and has a peak radiative power approximately equal to the total radiation from Jupiter's disc. The plume rises a few tens of atmospheric scale heights in -102 seconds. The rising plume reaches the altitude of -3000 km, but no atmospheric gas is accelerated to the escape velocity (-60 km/s).

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Toshiko Takata

Formation of high-pressure minerals in shocked L6 chondrite Yamato 791384: constraints on shock conditions and parent body size

Despin Mechanism for Protogiant Planets and Ionization State of Protogiant Planetary Disks

Comet Shoemaker-Levy 9: Impact on Jupiter and Plume Evolution

Impact of comet Shoemaker‐Levy 9 on Jupiter

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