Add to ORKGThe encounter of comet P/Shoemaker-Levy 9 with Jupiter during July, 1994, provided an unprecedented opportunity to observe any potential perturbations in the Jovian plasma torus and extended sodium cloud as the comet entered the planet's atmosphere. Though the most obvious affect of the encounter was the distinctive response of the visible disk to the impact of the cometary fragments, the potential disruptions to the extended Jovian atmosphere and the restoration of the system to equilibrium also provided a test for the current interpretation of the Jovian plasma torus and sodium magneto-nebula. The observations that were performed for this grant were made by a complementary group of researchers and could not have been made if the individua...
Brief description of the primary objectives and scope of the project: Assess the impact of comet Sho...
A conference on the atmosphere of Jupiter produced papers in the areas of thermal and ortho-para hyd...
We present a retrospective analysis of Earth-based mid-infrared observations of Jupiter capturing th...
The objective was to obtain spectra from 5 to 14 micron before, during, and after the impacts. We we...
We present two papers of the near-infrared observations from Palomar observatory of the impact of fr...
The Joint Observatory for Cometary Research's (JOCR) historical mission has been to provide understa...
The purpose of this grant was to study the ultraviolet and X-ray emissions associated with the impac...
We have employed three-dimensional numerical simulations of the impact of Comet Shoemaker-Levy 9 (SL...
Periodic Comet Shoemaker/Levy 9 will impact Jupiter in late July 1994. The comet, which broke into m...
The temperature and internal energy fields calculated by Takata et al. in the plume are used to calc...
The strategy of this investigation has been to develop new high-resolution imaging capabilities and ...
A string of comet fragments will plow into Jupiter in July of 1994, and planetary scientists are pla...
The visible optical power emitted from the expansion plumes from 0.4 and 2 km diameter fragments of ...
Io is the solar system’s most volcanically active body. This volcanic activity results in the ejecti...
The light produced by the atoms and ions of Jupiter's luminous, heavy particle environment was studi...
Brief description of the primary objectives and scope of the project: Assess the impact of comet Sho...
A conference on the atmosphere of Jupiter produced papers in the areas of thermal and ortho-para hyd...
We present a retrospective analysis of Earth-based mid-infrared observations of Jupiter capturing th...
The objective was to obtain spectra from 5 to 14 micron before, during, and after the impacts. We we...
We present two papers of the near-infrared observations from Palomar observatory of the impact of fr...
The Joint Observatory for Cometary Research's (JOCR) historical mission has been to provide understa...
The purpose of this grant was to study the ultraviolet and X-ray emissions associated with the impac...
We have employed three-dimensional numerical simulations of the impact of Comet Shoemaker-Levy 9 (SL...
Periodic Comet Shoemaker/Levy 9 will impact Jupiter in late July 1994. The comet, which broke into m...
The temperature and internal energy fields calculated by Takata et al. in the plume are used to calc...
The strategy of this investigation has been to develop new high-resolution imaging capabilities and ...
A string of comet fragments will plow into Jupiter in July of 1994, and planetary scientists are pla...
The visible optical power emitted from the expansion plumes from 0.4 and 2 km diameter fragments of ...
Io is the solar system’s most volcanically active body. This volcanic activity results in the ejecti...
The light produced by the atoms and ions of Jupiter's luminous, heavy particle environment was studi...
Brief description of the primary objectives and scope of the project: Assess the impact of comet Sho...
A conference on the atmosphere of Jupiter produced papers in the areas of thermal and ortho-para hyd...
We present a retrospective analysis of Earth-based mid-infrared observations of Jupiter capturing th...