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ENA generation mechnism

ENA generation mechnism. Krimigis et al, 2004. Some Questions about the Interaction between Trapped Particles and Neutrals. What is the source of trapped particles? How are they accelerated to high energies? What is the principal loss mechanism?

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ENA generation mechnism

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  1. ENA generation mechnism Krimigis et al, 2004

  2. Some Questions about the Interaction between Trapped Particles and Neutrals • What is the source of trapped particles? • How are they accelerated to high energies? • What is the principal loss mechanism? • How do particles respond in the rotating magnetic field of Saturn? • Are particle collisions with ring and icy moon surfaces important?

  3. Rev 0

  4. Charge Energy Mass Spectrometer (CHEMS) on Cassini records “fingerprints” of ion composition at Earth, Jupiter, and Saturn Saturn Earth Jupiter mass (amu) Plotted: 2/25/05 mass per charge (amu/e)

  5. Some Questions about the Interaction between Trapped Particles and Neutrals • What is the source of trapped particles? • How are they accelerated to high energies? • What is the principal loss mechanism? • How do particles respond in the rotating magnetic field of Saturn? • Are particle collisions with ring and icy moon surfaces important?

  6. Energetic Neutral Atom (ENA) Imaging O+fast+ H  Ofast + H+ ENA generation mechnism

  7. Grid outlines INCA FOV

  8. ENA PERIODICITIES Hydrogen ENA emission modulated at Saturn’s rotation period Oxygen

  9. With what else does this ENA oscillation correlate? B-field SKR Energetic (25-200keV) e-

  10. Oxygen ENA modulation is time-dispersed in energy--high energies lead low, due to grad-B drifts

  11. 7 Rs At what radial distance is the corotating ENA emission concentrated?

  12. Hydrogen Geocorona Rairden et al. (1986) Earth Ring Current The density of OH in the 6-10 Rs region is comparable to H density in the Geocorona. O is probably about the same as OH. O+ lifetime in the Earth’s ring current is ~ 8h. O+ lifetime in the inner Saturn magnetosphere could be much shorter, depending on its radial placement (O, OH charge-exchange cross-section is larger than H) Highest ENA production Devoid of energetic ions

  13. Modulation persistence and phase lock suggest an “active” longitude (could be a quadrant) coupled with a preferred local time for ion injection Gas Hot H+, O+ Ion Dispersion Event Neutral Gas? Saturn Cassini (Mauk et al, GRL, June 2005)

  14. Modulation persistence and phase lock suggest an “active” longitude (could be a quadrant) coupled with a preferred local time for ion injection Gas Hot H+, O+ Ion Dispersion Event Neutral Gas? Saturn Cassini

  15. Modulation persistence and phase lock suggest an “active” longitude (could be a quadrant) coupled with a preferred local time for ion injection Gas Hot H+, O+ Ion Dispersion Event Neutral Gas? Saturn Cassini

  16. Modulation persistence and phase lock suggest an “active” longitude (could be a quadrant) coupled with a preferred local time for ion injection Gas Hot H+, O+ Ion Dispersion Event Neutral Gas? Saturn Cassini

  17. Modulation persistence and phase lock suggest an “active” longitude (could be a quadrant) coupled with a preferred local time for ion injection Gas Hot H+, O+ Ion Dispersion Event Neutral Gas? Saturn Cassini

  18. Modulation persistence and phase lock suggest an “active” longitude (could be a quadrant) coupled with a preferred local time for ion injection Gas Hot H+, O+ Ion Dispersion Event Neutral Gas? Saturn Cassini

  19. Modulation persistence and phase lock suggest an “active” longitude (could be a quadrant) coupled with a preferred local time for ion injection Gas Hot H+, O+ Ion Dispersion Event Neutral Gas? Saturn Cassini

  20. Modulation persistence and phase lock suggest an “active” longitude (could be a quadrant) coupled with a preferred local time for ion injection Gas Hot H+, O+ Ion Dispersion Event Neutral Gas? Saturn Cassini

  21. Modulation persistence and phase lock suggest an “active” longitude (could be a quadrant) coupled with a preferred local time for ion injection Gas Hot H+, O+ Ion Dispersion Event Neutral Gas? Saturn Cassini

  22. Modulation persistence and phase lock suggest an “active” longitude (could be a quadrant) coupled with a preferred local time for ion injection Gas Hot H+, O+ Ion Dispersion Event Neutral Gas? Saturn Cassini

  23. Modulation persistence and phase lock suggest an “active” longitude (could be a quadrant) coupled with a preferred local time for ion injection Gas Hot H+, O+ Ion Dispersion Event Neutral Gas? Saturn Cassini

  24. How do these events look from an off-equatorial vantage point?

  25. Same event, higher energy H

  26. Watch the rotating blob…

  27. Summary of Observations on Periodicities • Brightest ENA emission from interface between dense gas cloud in vicinity of E-Ring, and energetic ions just outside that region. • Large scale ion injections are commonly seen as corotating brightenings in ENA. • Ion injections are well correlated with SKR, including when they are seen repeating at Saturn’s rotational period. • Oxygen ENA emission shows more pronounced, and more regular, rotation modulation than hydrogen. • Energetic oxygen lifetime in the inner magnetosphere should be no longer than hours, given the density of the water-product cloud in the vicinity of the E-ring. The repeated, un-damped rotational modulation therefore requires nearly continual replenishment of the energetic oxygen ions. • The synchronicity of the modulated ENA emission, as well as the unchanging energy dispersion, requires repeated injections preferentially at the same Saturn IAU longitude --possibly the same ‘clock’ that drives the SKR.

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