Simulated data for the study "Effects of Comet Encke's meteoroid stream on the seasonal variation of Mercury's Ca exosphere" Article Swipe

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Moroni, Martina ·

YOU? · · 2025 · Open Access · · DOI: https://doi.org/10.5281/zenodo.17578663

This .csv file contains simulated data related to the seasonal variation of calcium (Ca) in Mercury's exosphere, derived from Micro-Meteoroid Impact Vaporization (MMIV) processes. The model includes contributions from both the meteoroid background flux and cometary dust associated with comet 2P/Encke, evaluated over Mercury’s 2-year orbital period. 1 Column: TAA is the True Anomaly Angle of Mercury, where TAA=0° corresponds to the Mercury’s perihelion passage2 Column: Simulated seasonal Ca content in the exosphere over an odd Mercury year, due to meteoroid background flux including cometary contributions 3 Column: Simulated seasonal Ca content in the exosphere over an even Mercury year, due meteoroid background flux including cometary contributions 4 Column : mean exospheric Ca profile averaged over even and odd Mercury years5 Column: Simulated exospheric Ca profile assuming higher impact velocities from stream meteoroids6, 7 and 8 Columns: Simulated seasonal Ca profile due to the cometary contribution from three populations: young (1P, column 6), middle-age (2P, column 7) and old (3P, column 8); mass influx is 10 times higher than mean exospheric Ca profile (column 4) to approximately reproduce the observed Ca peaks 9 Column: Simulated seasonal Ca profile due from the meteoroid background flux, including all three populations of comet Encke; mass influx is 10 times higher than mean exospheric Ca profile (column 4) to approximately reproduce the observed Ca peaks 10 Column: Exospheric Ca profile assuming that the release of energetic Ca, generated through dissociative ionization processes followed by the neutralization of Ca⁺, is 50% of the total. The low-energy Ca component, generated by the photo-dissociation of the Ca-bearing molecules, constitutes the remaining 50%

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Exosphere Meteoroid Flux (metallurgy) Comet Physics Astrobiology Thermosphere Atmospheric sciences Atmosphere (unit) Ionization Seasonality Astrophysics Mercury (programming language) Geophysics Population Solar wind Vaporization Astronomy Chemistry

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Landing Page: https://doi.org/10.5281/zenodo.17578663
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OpenAlex ID: https://openalex.org/W7104882614

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DOI: https://doi.org/10.5281/zenodo.17578663

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Title: Simulated data for the study "Effects of Comet Encke's meteoroid stream on the seasonal variation of Mercury's Ca exosphere"

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Publication year: 2025

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Publication date: 2025-11-11

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Authors: Moroni, Martina

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Landing page: https://doi.org/10.5281/zenodo.17578663

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Concepts: Exosphere, Meteoroid, Flux (metallurgy), Comet, Physics, Astrobiology, Thermosphere, Atmospheric sciences, Atmosphere (unit), Ionization, Seasonality, Astrophysics, Mercury (programming language), Geophysics, Population, Solar wind, Vaporization, Astronomy, Chemistry

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