Io’s polar volcanic thermal emission indicates a magma ocean and shallow tidal heating patterns

Io’s polar volcanic thermal emission indicates a magma ocean and shallow tidal heating patterns

  • Davies, A.J Volcanoes on Io: Compared with Earth (Cambridge University Press, 2007).

  • Bell , S.J. , Cassin , P. and Reynolds, R. T. Melting of Io by tidal dissipation. Sciences 203892-894 (1979).

    Article Google Scholar Ads

  • Segatz, M., Spohn, T., Ross, M.N. & Schubert, G. Tidal dissipation, surface heat flux, and shape viscoelastic models of Io. Icarus 75187-206 (1988).

    Article Google Scholar Ads

  • Ross, M.N., Schubert, G., Spohn, T. & Gaskell, R.W. The internal structure of Io and the global distribution of its terrain. Icarus 85309-325 (1990).

    Article Google Scholar Ads

  • Khurana, K. et al. Evidence of a global magma ocean in Io’s interior. Sciences 3321186-1189 (2011).

    Article Google Scholar Ads

  • Tyler, RH, Henning, WG & Hamilton, CW Tidal heating of a magma ocean inside Jupiter’s moon Io. Astron. J. Supp. Secret. 2181-17 (2015).

    Google Scholar

  • Steinke, T., van Sliedregt, D., Vilella, K., van der Wal, W. & Vermeersen, B. Can a combination of convective heat transport and magma in the mantle explain the volcanic style of Io? J. Geophys. Precision. Planets 125e2020JE006521 (2020).

    Article Google Scholar Ads

  • Hay, HCFC, Trinh, A. & Matsuyama, I. Operation of Galilean satellites by lunar tides. Geophys. Precision. Lett. 47e2020GL088317 (2020).

    Article Google Scholar Ads

  • Matsuyama, I.N., Steinke, T. & Nimmo, F. Tidal heating on Io. Elements 18374-378 (2022).

    Article Google Scholar Ads

  • Lopez-Gautier, R. et al. Active volcanoes on Io: global distribution and changes in activity. Icarus 140243-264 (1999).

    Article Google Scholar Ads

  • Marchis, F. et al. Keck’s high-resolution adaptive optical imaging of violent volcanic activity on Io. Icarus 160124-131 (2002).

    Article Google Scholar Ads

  • Davies, AG, Veeder, GJ, Matson, DL & Johnson, TV Io: Mapping thermal emission fluctuations using the Galileo NIMS Io thermal emission database (NITED): Loki Patera. Geophys. Precision. Lett. 39L01201 (2012).

    Article Google Scholar Ads

  • de Kleer, K. & de Pater, I. Temporal variation of Io’s volcanic activity from near-infrared adaptive optics observations on 100 nights in 2013–2015. Icarus 280378-404 (2016).

    Article Google Scholar Ads

  • Cantrall, C. et al. Fluctuations and geological associations of volcanic activity on Io in the period 2001-2016. Icarus 312267-294 (2018).

    Article Google Scholar Ads

  • Davies, AG & Veeder, GJ Near infrared spectroscopic radiation at multiple wavelengths from Io 1 volcanoes: a low spatial resolution Galileo NIMS data set at night. J. Geophys. Precision. Planets 128e2023JE007839 (2023).

    Article Google Scholar Ads

  • Mora, A. et al. Infrared observations of Io from Juno. Icarus 341113607 (2020).

    Article Google Scholar

  • Zambon, F. et al. The hotspot distribution of Io was discovered by Juno/JIRAM. Geophys. Precision. Lett. 50e2022GL100597 (2023).

    Article Google Scholar Ads

  • Feder, J. J. et al. Io: Volcanic thermal sources and global heat flow. Icarus 219701-722 (2012).

    Article Google Scholar Ads

  • Davies, A.G., Perry, J., Williams, D.A.W. & Nelson, D. Modeling Io’s polar volcanic thermal emissions using Juno JIRAM data. in 54th Lunar Planetary Science Conference Abstract. 2544 (University Space Research Association, 2023).

  • Davies, AG, Keszthelyi, LP & Harris, AJL The thermal signature of volcanic eruptions on Io and Earth. J Volcanol. Geothermal. Precision. 19475-99 (2010).

    Article Google Scholar Ads

  • Feder, J. J. et al. Io: Heat flow from small volcanic features. Icarus 245379-410 (2015).

    Article Google Scholar Ads

  • Adriani, A. et al. Jerram, Jovian infrared aurora chart. Space Science. pastor. 213393-446 (2014).

    Article Google Scholar Ads

  • Marchis, F. et al. Keck AO survey of global volcanic activity for Io between 2 and 5 μm. Icarus 17696-122 (2005).

    Article Google Scholar Ads

  • Davies, AG, Veeder, GJ, Matson, DL & Johnson, Television map of volcanic heat flow on Io. Icarus 26267-78 (2015).

    Article Google Scholar Ads

  • Veeder, GJ, Matson, DL, Johnson, TV, Blaney, DL & Goguen, JD Io heat flow from infrared radiometry: 1983-1993. J. Geophys. Precision. 9917095-17162 (1994).

    Article Google Scholar Ads

  • Davies, AG & Ennis, ME Volcanic activity variability at Zamama, Kulan and Tupan Patera on Io as seen by Galileo’s near-infrared mapping spectrometer. Icarus 215401-416 (2011).

    Article Google Scholar Ads

  • By Clare, K. et al. Tidal heating: lessons from Io and the Jovian system Final Report of the Keck Institute for Space Studies, Caltech (2019); https://kiss.caltech.edu/final_reports/Tidal_Heating_final_report.pdf

  • Davies, A. G. et al. A new technique for measuring the temperature of silicate lava eruptions using remote sensing: application to Io and other planets. J Volcanol. Geothermal. Precision. 3431-16 (2017).

    Article Google Scholar Ads

  • Rathbun, J. A. et al. Mapping Io’s thermal radiation using the Galileo photopolarimeter (PPR). Icarus 169127-139 (2004).

    Article Google Scholar Ads

  • Kane, J. et al. Recommendations to address priority Io science in the next decade. bull. I be. Astron. SOC. 53179 (2021).

    Google Scholar

  • Hussmann, H. & Spohn, T. Tropical thermal evolution of Io and Europa. Icarus 171391-410 (2004).

    Article Google Scholar Ads

  • Blöcker, A., Saur, J., Roth, L. & Strobel, D. F. MHD modeling plasma interaction with the asymmetric atmosphere of Io. J. Geophys. Precision. Space physics. 1239286–9311 (2018).

    Article Google Scholar Ads

  • Šebek, O., Trávníček, P. M., Walker, R. J. & Hellinger, P. Dynamic plasma interaction in Io: a multi-species hybrid simulation. J. Geophys. Precision. Space physics. 124313-341 (2019).

    Article Google Scholar Ads

  • Bierson, C. F. & Nimmo, F. A test of Io’s magma ocean: modeling tidal dissipation using a partially molten mantle. J. Geophys. Precision. Planets 1212211-2224 (2016).

    Article Google Scholar Ads

  • Breuer, D., Hamilton, C. W. & Khurana, K. The internal structure of Io. Elements 18385-390 (2022).

    Article Google Scholar Ads

  • Williams, D. A., Nelson, D. & Milazzo, M. The Io GIS Database 1.0: an infrastructure for primary planetary spatial data. planet. Sci-fi. C. 2148 (2021).

  • Becker, T. & Geissler, P. E. Galileo global color mosaic of Io. in 36th Lunar and Planetary Sciences Conference Abstract. 1862 (University Space Research Association, 2005).

  • Kiszthely, L. et al. Imaging of volcanic activity on Jupiter’s moon Io by Galileo during the Galileo Europa mission and the Galileo Millennium mission. J. Geophys. Precision. 10633025–33052 (2001).

    Article Google Scholar Ads

  • Milazzo, MP et al. Volcanic activity at Tvachter Katena, Io. Icarus 179235-251 (2005).

    Article Google Scholar Ads

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