Surface‐Plasma Interactions at Europa in Draped Magnetospheric Fields: The Contribution of Energetic Electrons to Energy Deposition and Sputtering

Addison, Peter; Liuzzo, Lucas; Simon, Sven

doi:10.1029/2023ja031734

Cited by 6 publications

(11 citation statements)

References 116 publications

(723 reference statements)

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“…(2019). However, the concentration of surface sputtering around Europa's dayside apex assumed by these authors is inconsistent with more recent results that take into account the deflection of impinging magnetospheric particles by the draped fields (Addison et al., 2022; Addison, Liuzzo, & Simon, 2023). Therefore, future search for dawn‐dusk asymmetries in Europa's atmosphere will need to combine the approach of Oza et al.…”

Section: Discussioncontrasting

confidence: 66%

Magnetic Signatures of the Interaction Between Europa and Jupiter's Magnetosphere During the Juno Flyby

Addison,

Haynes,

Stahl

et al. 2024

Geophysical Research Letters

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Based on a hybrid model of Europa's magnetospheric interaction, we provide context for the magnetic field perturbations observed by the Juno spacecraft during its only close flyby of the moon in September 2022. By systematically varying the incident flow conditions and the density profile of Europa's atmosphere, we demonstrate that the observed, large‐scale signatures of magnetic field draping are consistent with a dawn‐dusk asymmetry in the moon's neutral envelope. During the flyby, such an asymmetry would have enhanced the magnetic perturbations in Europa's anti‐Jovian hemisphere, explaining why the spacecraft already detected strong field line draping while still several moon radii away. Conversely, a reduced neutral density in the sub‐Jovian hemisphere can explain why the perturbations in the flow‐aligned field component remained nearly constant as Juno approached Europa. While a dawn‐dusk asymmetry in Europa's atmosphere has been predicted by theoretical work, our results provide the first in situ hints of its presence.

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Section: Discussioncontrasting

confidence: 66%

Magnetic Signatures of the Interaction Between Europa and Jupiter's Magnetosphere During the Juno Flyby

Addison,

Haynes,

Stahl

et al. 2024

Geophysical Research Letters

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“…Parameters such as dose and temperature also need to be explored for completing our understanding of these processes depending on surface location. Since electrons represent a large flux of energy onto Europa's surface (Addison et al 2023), experiments also need to focus on them, although since energetic ions distribute a large amount of their energy through secondary electrons (Rothard et al 2017), the resulting processes and products are expected to be similar, albeit individual yields would likely be different (e.g., Teolis et al 2017).…”

Section: Discussionmentioning

confidence: 99%

Sulfur Implantation into Water Ice with Propane: Implications for Organic Chemistry on the Surface of Europa

Bouquet,

da Costa,

Boduch

et al. 2024

Planet. Sci. J.

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We performed experiments of implantation of energetic sulfur ions (105 keV) into 2:1 water:propane ices at 80 K and analyzed the resulting refractory organic matter with ultrahigh-resolution mass spectrometry. Our goal was to characterize the organic matter processed in the surface conditions of Europa, where it would receive a heavy flux of energetic particles, including sulfur ions, and determine whether organosulfurs could be formed in these conditions, using the simplest alkane that can exist in solid form on Europa’s surface. We find that the produced organic matter contains a large variety of both aliphatic and aromatic compounds (several thousand unique formulae), including polycyclic aromatic hydrocarbons (PAHs), with masses up to 900 amu. A large number of aromatic hydrocarbons is found along with oxygenated, mostly aliphatic, compounds. Organosulfurs are found in both CHS and CHOS form, demonstrating they can be formed from any organic compound through sulfur implantation. These organosulfurs’ properties (aromaticity, mass) appear similar to the rest of the organic matter, albeit their low quantity does not allow for a thorough comparison. Our results have implications for the type of refractory organic matter that could be observed by the JUICE and Europa Clipper space missions and how the surface of Europa could generate complex organics, including PAHs and organosulfurs, that could then enrich the subsurface ocean. In particular, they indicate that a large diversity of organic matter, including organosulfurs, can be formed from simple precursors in a geologically short time frame under the ion flux that reaches Europa.

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“…This approach constitutes an uncertainty in our model that may be addressed in future work by coupling our local interaction model to a global model of Saturn's magnetosphere. Such an approach has already been implemented for energetic ion dynamics at Europa and Callisto, where global magnetospheric models are available (e.g., Addison et al., 2023; Liuzzo et al., 2022).…”

Section: Model Descriptionmentioning

confidence: 99%

A Novel Backtracing Model to Study the Emission of Energetic Neutral Atoms at Titan

Tippens,

Roussos,

Simon

et al. 2024

JGR Space Physics

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To study the emission of energetic neutral atoms (ENAs) at Titan, we have developed a novel model that takes into account a spacecraft detector's limited field of view and traces energetic magnetospheric particles backward in time. ENAs are generated by charge exchange between Titan's atmospheric neutrals and energetic magnetospheric ions. By tracing these ions through the draped electromagnetic fields in Titan's environment, we generate synthetic ENA images and compare them to Cassini observations from the TA flyby. Our model can reproduce the intensity and morphology of the observed images only when field line draping is included. Using a realistic detector geometry is necessary to determine the influence of this draping on the ENA images: the non‐uniform fields eliminate a localized feature of increased ENA flux, which is a different effect than in models utilizing an infinitely extended detector. We demonstrate that ENA observations from TA contain signatures of the time‐varying Saturnian magnetospheric environment at Titan: the modeled ENA emission morphology and the effect of field line draping are different for the background field vectors measured during the inbound and outbound legs of TA. The visibility and qualitative effect of the draping on observed ENA images vary strongly between different detector locations and pointings. Depending on the viewing geometry, field line draping may add segments of elevated flux to the synthetic ENA images, remove such segments, or have no qualitative effect at all. Our study emphasizes the challenges and the potential for remote sensing of Titan's interaction region using ENA imaging.

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Surface‐Plasma Interactions at Europa in Draped Magnetospheric Fields: The Contribution of Energetic Electrons to Energy Deposition and Sputtering

Cited by 6 publications

References 116 publications

Magnetic Signatures of the Interaction Between Europa and Jupiter's Magnetosphere During the Juno Flyby

Magnetic Signatures of the Interaction Between Europa and Jupiter's Magnetosphere During the Juno Flyby

Sulfur Implantation into Water Ice with Propane: Implications for Organic Chemistry on the Surface of Europa

A Novel Backtracing Model to Study the Emission of Energetic Neutral Atoms at Titan

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