1991
DOI: 10.1029/91ja01136
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Theory of ring sweeping of energetic particles

Abstract: Because the effective “area” of the Neptunian rings is larger than that of the inner moons, the sweeping of energetic particles by the rings is perhaps the dominant process for particle loss in the magnetosphere within 5 RN. In this paper we describe a theory for calculating the absorption probability of energetic charged particles by the rings. We include the effects of a large tilt and an offset between the planet and dipole centers. We find that the probability of absorption for protons is so high that the … Show more

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Cited by 14 publications
(5 citation statements)
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“…Other loss mechanisms resulting in a depletion of 90° particles are for example wave‐particle interactions, magnetic drift shell splitting, shadowing effects or satellite sweeping effects caused by Europa. The latter can be excluded because the satellite sweeping loss rate is an order of magnitude too low to explain the observed signature [ Paranicas and Cheng , 1991]. Drift shell splitting is able to explain butterfly/bidirectional distributions only on the dayside or the nightside of the magnetosphere, but not at all local times simultaneously.…”
Section: Discussionmentioning
confidence: 99%
“…Other loss mechanisms resulting in a depletion of 90° particles are for example wave‐particle interactions, magnetic drift shell splitting, shadowing effects or satellite sweeping effects caused by Europa. The latter can be excluded because the satellite sweeping loss rate is an order of magnitude too low to explain the observed signature [ Paranicas and Cheng , 1991]. Drift shell splitting is able to explain butterfly/bidirectional distributions only on the dayside or the nightside of the magnetosphere, but not at all local times simultaneously.…”
Section: Discussionmentioning
confidence: 99%
“…Data are fur- Figure 2b because the E ring nominally extends from about L = 3 to L = 8 [Showalter et al, 1991]. Modeling the tings as in the work of Paranicas and Cheng [1991] shows that at constant K, absorption rates also increase with increasing /x. This is because bounce times decrease with increasing /x and for Saturn's tings, which are in the magnetic equatorial plane, higher/x ions interact with the tings more frequently.…”
Section: Converting Data To Phase Space Densitiesmentioning
confidence: 95%
“…Figure 6 shows that away from satellite locations, ring absorption is also higher for the nearequatorial protons. The dependence of ring absorption rates on K is related to the path length of the particle through the ting, the bounce time and the drift rate [Paranicas and Cheng, 1991]. Figure 6 also shows the absorption rate at Mimas is about 2 orders of magnitude higher than the absorption rate in the nearby rings.…”
Section: Energetic Protonsmentioning
confidence: 97%
“…The electron loss due to the sweeping effect by the main and gossamer rings was evaluated in accordance with a method described by Paranicas and Cheng [1991]. We again assumed the simple absorption of electrons when they collided with the ring particles.…”
Section: Physical Model For Jupiter's Radiation Beltmentioning
confidence: 99%