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Appendix 2 - Supplemental readings

Published online by Cambridge University Press:  05 June 2012

Paul Schenk
Paul Schenk
Affiliation:
Lunar and Planetary Institute, Houston
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Summary

Supplemental and recommended readings related to features or ideas described in the Atlas are listed first by topic, and then grouped as follows. Books and collections of journal articles are listed first and in chronological order. Many additional references can be found mentioned in these compilations. These listings are followed by single journal articles of specific importance, also in chronological order. This list of readings includes many of my own articles, and is by no means complete. My apologies for any I may have left off by oversight or need.

Type
Chapter
Information
Atlas of the Galilean Satellites , pp. 359 - 363
Publisher: Cambridge University Press
Print publication year: 2010

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References

The Great Comet Crash, ed. J. Spencer and J. Milton, Cambridge University Press, New York, 1995.
The Collision of Comet Shoemaker-Levy 9 and Jupiter, ed. K. Noll, H. Weaver and P. Feldman, Cambridge University Press, New York, 1996.
Melosh, H. J. and Schenk, P. (1993). Split comets and the origin of crater chains on Ganymede and Callisto, Nature, 365, 731–733.CrossRefGoogle Scholar
Schenk, P. M., Asphaug, E., McKinnon, W. B., Melosh, H. J., and Weissman, P. (1996). Cometary nuclei and tidal disruption: The geologic record of crater chains on Callisto and Ganymede, Icarus, 121, 249–274.CrossRefGoogle Scholar
The Great Comet Crash, ed. J. Spencer and J. Milton, Cambridge University Press, New York, 1995.
The Collision of Comet Shoemaker-Levy 9 and Jupiter, ed. K. Noll, H. Weaver and P. Feldman, Cambridge University Press, New York, 1996.
Melosh, H. J. and Schenk, P. (1993). Split comets and the origin of crater chains on Ganymede and Callisto, Nature, 365, 731–733.CrossRefGoogle Scholar
Schenk, P. M., Asphaug, E., McKinnon, W. B., Melosh, H. J., and Weissman, P. (1996). Cometary nuclei and tidal disruption: The geologic record of crater chains on Callisto and Ganymede, Icarus, 121, 249–274.CrossRefGoogle Scholar
Science, 204, 945–1008, 1979, and Science, 206, 925–996, 1979.
Voyage to Jupiter, D. Morrison and J. Swan, NASA Special Publication 439, 1980.
Satellites of Jupiter – Special Section, Icarus, 44(2) (Nov.), 1980.
Satellites of Jupiter, University of Arizona Press, Tucson, AZ, 1982.
Satellites, University of Arizona Press, Tucson, AZ, 1986.
Satellites of the Outer Planets, D. Rothery, Clarendon Press, Oxford, 1992.
The Giant Planet Jupiter, J. Rogers, Cambridge University Press, New York, 1995.
Icy Galilean Satellites – Special Section, J. Geophys. Res., 100(E9) (Sept. 25), 1995.
Galileo: Exploration of Jupiter's System, ed. C. Yeates, NASA Special Publication 479, 1985.
Galileo Remote Sensing – Special Section, J. Geophys. Res., 135(1) (Sept.), 1998.
Jupiter Odyssey, D. Harland, Springer-Praxis, London/New York, 2000.
Mission Jupiter, D. Fischer, Springer-Verlag, New York, 2001.
Jupiter, ed. F. Bagenal, T. Dowling and W. McKinnon, Cambridge University Press, Cambridge/New York, 2004.
Schenk, P. (2004). Ice moons of Sol? In Icy Worlds of the Solar System, ed. Dasch, P., Cambridge University Press, New York, pp. 110–134.Google Scholar
New Horizons at Jupiter – Special Section, Science, 318(5848) (Oct. 12), 2007.
Collins, G. C., McKinnon, W. B., Moore, J. M., Pappalardo, R. T., Prokter, L. M., and Schenk, P. M.Tectonics of the outer planet satellites. In Planetary Tectonics, ed. Watters, T. and Schultz, R.. Cambridge University Press, Cambridge/New York, 2010.Google Scholar
Time-variable Phenomenon in the Jovian System, NASA Special Publication 494, 1987.
Io Volcanism in the Galileo Era – Special Section, Geophys. Res. Lett., 24(20) (Oct. 15), 1997.
Galileo: Io Up Close – Special Section, Science, 288(5469) (May 19), 2001.
Geology and Geophysics of Io – Special Section, J. Geophys. Res., 106(E12) (Dec. 25), 2001.
Io After Galileo – Special Section, Icarus, 169(1) (May), 2004.
Io after Galileo, ed. R. Lopes and J. Spencer, Praxis, Chichester, UK, 2007.
Volcanism on Io, A. Davies, Cambridge University Press, New York, 2007.
Spencer, J. and Schneider, N. (1996). Io on the eve of the Galileo mission, Ann. Rev. Earth Planet. Sci., 24, 125–190.CrossRefGoogle Scholar
Spencer, J., McEwen, A., McGrath, M., Sartoretti, P., Nash, D., Noll, K., and Gilmore, D. (1997). Volcanic resurfacing of Io: Post-repair HST imaging, Icarus, 127, 221–237.CrossRefGoogle Scholar
Schenk, P., McEwen, A., Davies, A., Davenport, T., and Jones, K. (1997). Geology and topography of Ra Patera, Io, in the Voyager era: Prelude to eruption, Geophys. Res. Lett., 24, 2467–2470.CrossRefGoogle Scholar
Schenk, P. M. and Bulmer, M. H. (1998). Origin of mountains on Io by thrust faulting and large-scale mass movements, Science, 279, 1514–1518.CrossRefGoogle ScholarPubMed
Schenk, P. and Williams, D. (2004). A potential thermal erosion lava channel on Io, Geophys. Res. Lett., 31, L23702.CrossRefGoogle Scholar
Europa – Special Section, Nature, 391(3) (Jan. 22), 1998.
Galileo Mission Results – Special Section, J. Geophys. Res., volume 106, number E9 (Sept. 25), 2000.
Europa: Special Section, Astrobiology, 3(4) (Dec.), 2003.
Europa's Icy Shell – Special Section, Icarus, 177(2) (Oct.), 2005.
Europa, ed. R. Pappalardo, W. McKinnon and K. Khuruna, University of Arizona Press, Tucson, AZ, 2010.
Schenk, P. M. and Seyfert, C. F. (1980). Fault offsets and proposed plate motions for Europa, EOS, 61, 286.Google Scholar
McEwen, A., Schenk, P. M., and McKinnon, W. B. (1989). Fault offsets and lateral crustal movement on Europa: Evidence for a mobile ice shell, Icarus, 79, 75–100.Google Scholar
Pappalardo, R., Head, J., and Greeley, R. (1999). Hidden ocean of Europa, Sci. Am., 281(4), 34–43.CrossRefGoogle Scholar
Prockter, L. and Pappalardo, R. (2000). Folds on Europa: Implications for crustal cycling and accommodation of extension, Science, 289, 941–944.CrossRefGoogle ScholarPubMed
Hussmann, H. and Spohn, T. (2004). Thermal-orbital evolution of Io and Europa. Icarus, 171, 391–410.CrossRefGoogle Scholar
Figueredo, P. and Greeley, R. (2004). Resurfacing history of Europa from pole-to-pole geological mapping, Icarus, 167, 287–312.CrossRefGoogle Scholar
Schenk, P. M. and Pappalardo, R. (2004). Topographic variations in chaos on Europa: Implications for diapiric formation, Geophys. Res. Lett., 31, L16703, doi:10.1029/2004GL019978.CrossRefGoogle Scholar
Prockter, L. and Schenk, P. (2005). Origin and evolution of Castalia Macula, an anomalous young depression on Europa, Icarus, 177, 305.CrossRefGoogle Scholar
Nimmo, F. and Schenk, P. (2006). Normal faulting on Europa, J. Struct. Geol., 28, 2194–2203.CrossRefGoogle Scholar
Dalton, J. B. (2007). Linear mixture modeling of Europa's non-ice material based on cryogenic laboratory spectroscopy, Geophys. Res. Lett., 34, L21205, doi:10.1029/2007GL031497.CrossRefGoogle Scholar
Schenk, P., Matsuyama, I., and Nimmo, F. (2008). Evidence for true polar wander on Europa from global scale small circle depressions, Nature, 453, 368–371.CrossRefGoogle Scholar
Schenk, P. M. and McKinnon, W. B. (1985). Dark halo craters and the thickness of grooved terrain on Ganymede, J. Geophys. Res., 90, C775–C783.CrossRefGoogle Scholar
Schenk, P. (1995). The geology of Callisto, J. Geophys. Res., 100, 19 023–19 040.CrossRefGoogle Scholar
Greeley, R., Klemaszewski, J., and Wagner, R. (2000). Galileo views of the geology of Callisto, Planet. Space Sci., 48, 829–853.CrossRefGoogle Scholar
Schenk, P. M., McKinnon, W., Gwynn, D., and Moore, J. (2001). Flooding of Ganymede's resurfaced terrains by low-viscosity aqueous lavas, Nature, 410, 57–60.CrossRefGoogle Scholar
McCord, T., Hansen, G., and Hibbitts, C. (2001). Hydrated salt minerals on Ganymede's surface: Evidence of an ocean below, Science, 292, 1523–1525.CrossRefGoogle ScholarPubMed
Hibbitts, C., Klemaszewski, J., McCord, T., Hansen, G., and Greeley, R. (2002). CO2-rich impact craters on Callisto, J. Geophys. Res., 107, doi:10.1029/2000JE001412.CrossRefGoogle Scholar
Spohn, T. and Schubert, G. (2003). Oceans in the icy Galilean satellites, Icarus, 161, 456–467.CrossRefGoogle Scholar
Dombard, A. and McKinnon, W. (2006). Elastoviscoplastic relaxation of impact crater topography with application to Ganymede and Callisto, J. Geophys. Res., 111, E01001.CrossRefGoogle Scholar
Khurana, K., Pappalardo, R., Murphy, N., and Denk, T. (2007). The origin of Ganymede's polar caps, Icarus, 191, 193–202.CrossRefGoogle Scholar
Bland, M. and Showman, A. (2007). The formation of Ganymede's grooved terrain: Numerical modeling of extensional necking instabilities, Icarus, 189, 439–456.CrossRefGoogle Scholar
Howard, A. and Moore, J. (2008). Sublimation-driven erosion on Callisto: A landform simulation model test, Geophys. Res. Lett., 35, CiteID L03203.CrossRefGoogle Scholar
Bland, M., Showman, A., and Tobie, G. (2009). The orbital thermal evolution and expansion of Ganymede, Icarus, 200, 207–221.CrossRefGoogle Scholar
McKinnon, W. and Melosh, H. J. (1980). Evolution of planetary lithospheres: Evidence from multiring basins on Ganymede and Callisto, Icarus, 44, 454–471.CrossRefGoogle Scholar
Schenk, P. M. and McKinnon, W. B. (1987). Ring geometry on Ganymede and Callisto, Icarus, 72, 209–234.CrossRefGoogle Scholar
Schenk, P. M. (1991). Ganymede and Callisto: Complex crater formation and planetary crusts, J. Geophys. Res., 96, 15 635–15 664.CrossRefGoogle Scholar
Schenk, P. M. and McKinnon, W. B. (1991). Dark ray and dark floor craters on Ganymede and the provenances of large impactors in the Jovian system, Icarus, 89, 318–346.CrossRefGoogle Scholar
Schenk, P. M. (1993). Central pit and dome craters: Exposing the interiors of Ganymede and Callisto, J. Geophys. Res., 98, 7475–7498.CrossRefGoogle Scholar
Zahnle, K., Schenk, P., Sobieszczyk, S., Dones, L., and Levison, H. (2001). Differential cratering of synchronously rotating satellites by ecliptic comets, Icarus, 153, 111–129.CrossRefGoogle Scholar
Schenk, P. (2002). Thickness constraints on the icy shells of the Galilean satellites from a comparison of crater shapes, Nature, 417, 419–421.CrossRefGoogle ScholarPubMed
Schenk, P. and Ridolfi, F. (2002). Morphology and scaling of ejecta deposits on icy satellites, Geophys. Res. Lett., 29, doi:10.1029/2001GRL013512.CrossRefGoogle Scholar
Zahnle, K., Schenk, P., Levison, H., and Dones, L. (2003). Cratering rates in the Outer Solar System, Icarus, 163, 263–289.CrossRefGoogle Scholar
Schenk, P., Chapman, C., Zahnle, K., and Moore, J. (2004). Ages and interiors: The cratering record of the Galilean satellites. In Jupiter, ed. Bagenal, F., Dowling, T. and McKinnon, W.. Cambridge University Press, Cambridge/New York, pp. 427–456.Google Scholar
Science, 204, 945–1008, 1979, and Science, 206, 925–996, 1979.
Voyage to Jupiter, D. Morrison and J. Swan, NASA Special Publication 439, 1980.
Satellites of Jupiter – Special Section, Icarus, 44(2) (Nov.), 1980.
Satellites of Jupiter, University of Arizona Press, Tucson, AZ, 1982.
Satellites, University of Arizona Press, Tucson, AZ, 1986.
Satellites of the Outer Planets, D. Rothery, Clarendon Press, Oxford, 1992.
The Giant Planet Jupiter, J. Rogers, Cambridge University Press, New York, 1995.
Icy Galilean Satellites – Special Section, J. Geophys. Res., 100(E9) (Sept. 25), 1995.
Science, 204, 945–1008, 1979, and Science, 206, 925–996, 1979.
Voyage to Jupiter, D. Morrison and J. Swan, NASA Special Publication 439, 1980.
Satellites of Jupiter – Special Section, Icarus, 44(2) (Nov.), 1980.
Satellites of Jupiter, University of Arizona Press, Tucson, AZ, 1982.
Satellites, University of Arizona Press, Tucson, AZ, 1986.
Satellites of the Outer Planets, D. Rothery, Clarendon Press, Oxford, 1992.
The Giant Planet Jupiter, J. Rogers, Cambridge University Press, New York, 1995.
Icy Galilean Satellites – Special Section, J. Geophys. Res., 100(E9) (Sept. 25), 1995.
Galileo: Exploration of Jupiter's System, ed. C. Yeates, NASA Special Publication 479, 1985.
Galileo Remote Sensing – Special Section, J. Geophys. Res., 135(1) (Sept.), 1998.
Jupiter Odyssey, D. Harland, Springer-Praxis, London/New York, 2000.
Mission Jupiter, D. Fischer, Springer-Verlag, New York, 2001.
Jupiter, ed. F. Bagenal, T. Dowling and W. McKinnon, Cambridge University Press, Cambridge/New York, 2004.
Schenk, P. (2004). Ice moons of Sol? In Icy Worlds of the Solar System, ed. Dasch, P., Cambridge University Press, New York, pp. 110–134.Google Scholar
New Horizons at Jupiter – Special Section, Science, 318(5848) (Oct. 12), 2007.
Collins, G. C., McKinnon, W. B., Moore, J. M., Pappalardo, R. T., Prokter, L. M., and Schenk, P. M.Tectonics of the outer planet satellites. In Planetary Tectonics, ed. Watters, T. and Schultz, R.. Cambridge University Press, Cambridge/New York, 2010.Google Scholar
Galileo: Exploration of Jupiter's System, ed. C. Yeates, NASA Special Publication 479, 1985.
Galileo Remote Sensing – Special Section, J. Geophys. Res., 135(1) (Sept.), 1998.
Jupiter Odyssey, D. Harland, Springer-Praxis, London/New York, 2000.
Mission Jupiter, D. Fischer, Springer-Verlag, New York, 2001.
Jupiter, ed. F. Bagenal, T. Dowling and W. McKinnon, Cambridge University Press, Cambridge/New York, 2004.
Schenk, P. (2004). Ice moons of Sol? In Icy Worlds of the Solar System, ed. Dasch, P., Cambridge University Press, New York, pp. 110–134.Google Scholar
New Horizons at Jupiter – Special Section, Science, 318(5848) (Oct. 12), 2007.
Collins, G. C., McKinnon, W. B., Moore, J. M., Pappalardo, R. T., Prokter, L. M., and Schenk, P. M.Tectonics of the outer planet satellites. In Planetary Tectonics, ed. Watters, T. and Schultz, R.. Cambridge University Press, Cambridge/New York, 2010.Google Scholar
Time-variable Phenomenon in the Jovian System, NASA Special Publication 494, 1987.
Io Volcanism in the Galileo Era – Special Section, Geophys. Res. Lett., 24(20) (Oct. 15), 1997.
Galileo: Io Up Close – Special Section, Science, 288(5469) (May 19), 2001.
Geology and Geophysics of Io – Special Section, J. Geophys. Res., 106(E12) (Dec. 25), 2001.
Io After Galileo – Special Section, Icarus, 169(1) (May), 2004.
Io after Galileo, ed. R. Lopes and J. Spencer, Praxis, Chichester, UK, 2007.
Volcanism on Io, A. Davies, Cambridge University Press, New York, 2007.
Spencer, J. and Schneider, N. (1996). Io on the eve of the Galileo mission, Ann. Rev. Earth Planet. Sci., 24, 125–190.CrossRefGoogle Scholar
Spencer, J., McEwen, A., McGrath, M., Sartoretti, P., Nash, D., Noll, K., and Gilmore, D. (1997). Volcanic resurfacing of Io: Post-repair HST imaging, Icarus, 127, 221–237.CrossRefGoogle Scholar
Schenk, P., McEwen, A., Davies, A., Davenport, T., and Jones, K. (1997). Geology and topography of Ra Patera, Io, in the Voyager era: Prelude to eruption, Geophys. Res. Lett., 24, 2467–2470.CrossRefGoogle Scholar
Schenk, P. M. and Bulmer, M. H. (1998). Origin of mountains on Io by thrust faulting and large-scale mass movements, Science, 279, 1514–1518.CrossRefGoogle ScholarPubMed
Schenk, P. and Williams, D. (2004). A potential thermal erosion lava channel on Io, Geophys. Res. Lett., 31, L23702.CrossRefGoogle Scholar
Time-variable Phenomenon in the Jovian System, NASA Special Publication 494, 1987.
Io Volcanism in the Galileo Era – Special Section, Geophys. Res. Lett., 24(20) (Oct. 15), 1997.
Galileo: Io Up Close – Special Section, Science, 288(5469) (May 19), 2001.
Geology and Geophysics of Io – Special Section, J. Geophys. Res., 106(E12) (Dec. 25), 2001.
Io After Galileo – Special Section, Icarus, 169(1) (May), 2004.
Io after Galileo, ed. R. Lopes and J. Spencer, Praxis, Chichester, UK, 2007.
Volcanism on Io, A. Davies, Cambridge University Press, New York, 2007.
Spencer, J. and Schneider, N. (1996). Io on the eve of the Galileo mission, Ann. Rev. Earth Planet. Sci., 24, 125–190.CrossRefGoogle Scholar
Spencer, J., McEwen, A., McGrath, M., Sartoretti, P., Nash, D., Noll, K., and Gilmore, D. (1997). Volcanic resurfacing of Io: Post-repair HST imaging, Icarus, 127, 221–237.CrossRefGoogle Scholar
Schenk, P., McEwen, A., Davies, A., Davenport, T., and Jones, K. (1997). Geology and topography of Ra Patera, Io, in the Voyager era: Prelude to eruption, Geophys. Res. Lett., 24, 2467–2470.CrossRefGoogle Scholar
Schenk, P. M. and Bulmer, M. H. (1998). Origin of mountains on Io by thrust faulting and large-scale mass movements, Science, 279, 1514–1518.CrossRefGoogle ScholarPubMed
Schenk, P. and Williams, D. (2004). A potential thermal erosion lava channel on Io, Geophys. Res. Lett., 31, L23702.CrossRefGoogle Scholar
Europa – Special Section, Nature, 391(3) (Jan. 22), 1998.
Galileo Mission Results – Special Section, J. Geophys. Res., volume 106, number E9 (Sept. 25), 2000.
Europa: Special Section, Astrobiology, 3(4) (Dec.), 2003.
Europa's Icy Shell – Special Section, Icarus, 177(2) (Oct.), 2005.
Europa, ed. R. Pappalardo, W. McKinnon and K. Khuruna, University of Arizona Press, Tucson, AZ, 2010.
Schenk, P. M. and Seyfert, C. F. (1980). Fault offsets and proposed plate motions for Europa, EOS, 61, 286.Google Scholar
McEwen, A., Schenk, P. M., and McKinnon, W. B. (1989). Fault offsets and lateral crustal movement on Europa: Evidence for a mobile ice shell, Icarus, 79, 75–100.Google Scholar
Pappalardo, R., Head, J., and Greeley, R. (1999). Hidden ocean of Europa, Sci. Am., 281(4), 34–43.CrossRefGoogle Scholar
Prockter, L. and Pappalardo, R. (2000). Folds on Europa: Implications for crustal cycling and accommodation of extension, Science, 289, 941–944.CrossRefGoogle ScholarPubMed
Hussmann, H. and Spohn, T. (2004). Thermal-orbital evolution of Io and Europa. Icarus, 171, 391–410.CrossRefGoogle Scholar
Figueredo, P. and Greeley, R. (2004). Resurfacing history of Europa from pole-to-pole geological mapping, Icarus, 167, 287–312.CrossRefGoogle Scholar
Schenk, P. M. and Pappalardo, R. (2004). Topographic variations in chaos on Europa: Implications for diapiric formation, Geophys. Res. Lett., 31, L16703, doi:10.1029/2004GL019978.CrossRefGoogle Scholar
Prockter, L. and Schenk, P. (2005). Origin and evolution of Castalia Macula, an anomalous young depression on Europa, Icarus, 177, 305.CrossRefGoogle Scholar
Nimmo, F. and Schenk, P. (2006). Normal faulting on Europa, J. Struct. Geol., 28, 2194–2203.CrossRefGoogle Scholar
Dalton, J. B. (2007). Linear mixture modeling of Europa's non-ice material based on cryogenic laboratory spectroscopy, Geophys. Res. Lett., 34, L21205, doi:10.1029/2007GL031497.CrossRefGoogle Scholar
Schenk, P., Matsuyama, I., and Nimmo, F. (2008). Evidence for true polar wander on Europa from global scale small circle depressions, Nature, 453, 368–371.CrossRefGoogle Scholar
Europa – Special Section, Nature, 391(3) (Jan. 22), 1998.
Galileo Mission Results – Special Section, J. Geophys. Res., volume 106, number E9 (Sept. 25), 2000.
Europa: Special Section, Astrobiology, 3(4) (Dec.), 2003.
Europa's Icy Shell – Special Section, Icarus, 177(2) (Oct.), 2005.
Europa, ed. R. Pappalardo, W. McKinnon and K. Khuruna, University of Arizona Press, Tucson, AZ, 2010.
Schenk, P. M. and Seyfert, C. F. (1980). Fault offsets and proposed plate motions for Europa, EOS, 61, 286.Google Scholar
McEwen, A., Schenk, P. M., and McKinnon, W. B. (1989). Fault offsets and lateral crustal movement on Europa: Evidence for a mobile ice shell, Icarus, 79, 75–100.Google Scholar
Pappalardo, R., Head, J., and Greeley, R. (1999). Hidden ocean of Europa, Sci. Am., 281(4), 34–43.CrossRefGoogle Scholar
Prockter, L. and Pappalardo, R. (2000). Folds on Europa: Implications for crustal cycling and accommodation of extension, Science, 289, 941–944.CrossRefGoogle ScholarPubMed
Hussmann, H. and Spohn, T. (2004). Thermal-orbital evolution of Io and Europa. Icarus, 171, 391–410.CrossRefGoogle Scholar
Figueredo, P. and Greeley, R. (2004). Resurfacing history of Europa from pole-to-pole geological mapping, Icarus, 167, 287–312.CrossRefGoogle Scholar
Schenk, P. M. and Pappalardo, R. (2004). Topographic variations in chaos on Europa: Implications for diapiric formation, Geophys. Res. Lett., 31, L16703, doi:10.1029/2004GL019978.CrossRefGoogle Scholar
Prockter, L. and Schenk, P. (2005). Origin and evolution of Castalia Macula, an anomalous young depression on Europa, Icarus, 177, 305.CrossRefGoogle Scholar
Nimmo, F. and Schenk, P. (2006). Normal faulting on Europa, J. Struct. Geol., 28, 2194–2203.CrossRefGoogle Scholar
Dalton, J. B. (2007). Linear mixture modeling of Europa's non-ice material based on cryogenic laboratory spectroscopy, Geophys. Res. Lett., 34, L21205, doi:10.1029/2007GL031497.CrossRefGoogle Scholar
Schenk, P., Matsuyama, I., and Nimmo, F. (2008). Evidence for true polar wander on Europa from global scale small circle depressions, Nature, 453, 368–371.CrossRefGoogle Scholar
Schenk, P. M. and McKinnon, W. B. (1985). Dark halo craters and the thickness of grooved terrain on Ganymede, J. Geophys. Res., 90, C775–C783.CrossRefGoogle Scholar
Schenk, P. (1995). The geology of Callisto, J. Geophys. Res., 100, 19 023–19 040.CrossRefGoogle Scholar
Greeley, R., Klemaszewski, J., and Wagner, R. (2000). Galileo views of the geology of Callisto, Planet. Space Sci., 48, 829–853.CrossRefGoogle Scholar
Schenk, P. M., McKinnon, W., Gwynn, D., and Moore, J. (2001). Flooding of Ganymede's resurfaced terrains by low-viscosity aqueous lavas, Nature, 410, 57–60.CrossRefGoogle Scholar
McCord, T., Hansen, G., and Hibbitts, C. (2001). Hydrated salt minerals on Ganymede's surface: Evidence of an ocean below, Science, 292, 1523–1525.CrossRefGoogle ScholarPubMed
Hibbitts, C., Klemaszewski, J., McCord, T., Hansen, G., and Greeley, R. (2002). CO2-rich impact craters on Callisto, J. Geophys. Res., 107, doi:10.1029/2000JE001412.CrossRefGoogle Scholar
Spohn, T. and Schubert, G. (2003). Oceans in the icy Galilean satellites, Icarus, 161, 456–467.CrossRefGoogle Scholar
Dombard, A. and McKinnon, W. (2006). Elastoviscoplastic relaxation of impact crater topography with application to Ganymede and Callisto, J. Geophys. Res., 111, E01001.CrossRefGoogle Scholar
Khurana, K., Pappalardo, R., Murphy, N., and Denk, T. (2007). The origin of Ganymede's polar caps, Icarus, 191, 193–202.CrossRefGoogle Scholar
Bland, M. and Showman, A. (2007). The formation of Ganymede's grooved terrain: Numerical modeling of extensional necking instabilities, Icarus, 189, 439–456.CrossRefGoogle Scholar
Howard, A. and Moore, J. (2008). Sublimation-driven erosion on Callisto: A landform simulation model test, Geophys. Res. Lett., 35, CiteID L03203.CrossRefGoogle Scholar
Bland, M., Showman, A., and Tobie, G. (2009). The orbital thermal evolution and expansion of Ganymede, Icarus, 200, 207–221.CrossRefGoogle Scholar
Schenk, P. M. and McKinnon, W. B. (1985). Dark halo craters and the thickness of grooved terrain on Ganymede, J. Geophys. Res., 90, C775–C783.CrossRefGoogle Scholar
Schenk, P. (1995). The geology of Callisto, J. Geophys. Res., 100, 19 023–19 040.CrossRefGoogle Scholar
Greeley, R., Klemaszewski, J., and Wagner, R. (2000). Galileo views of the geology of Callisto, Planet. Space Sci., 48, 829–853.CrossRefGoogle Scholar
Schenk, P. M., McKinnon, W., Gwynn, D., and Moore, J. (2001). Flooding of Ganymede's resurfaced terrains by low-viscosity aqueous lavas, Nature, 410, 57–60.CrossRefGoogle Scholar
McCord, T., Hansen, G., and Hibbitts, C. (2001). Hydrated salt minerals on Ganymede's surface: Evidence of an ocean below, Science, 292, 1523–1525.CrossRefGoogle ScholarPubMed
Hibbitts, C., Klemaszewski, J., McCord, T., Hansen, G., and Greeley, R. (2002). CO2-rich impact craters on Callisto, J. Geophys. Res., 107, doi:10.1029/2000JE001412.CrossRefGoogle Scholar
Spohn, T. and Schubert, G. (2003). Oceans in the icy Galilean satellites, Icarus, 161, 456–467.CrossRefGoogle Scholar
Dombard, A. and McKinnon, W. (2006). Elastoviscoplastic relaxation of impact crater topography with application to Ganymede and Callisto, J. Geophys. Res., 111, E01001.CrossRefGoogle Scholar
Khurana, K., Pappalardo, R., Murphy, N., and Denk, T. (2007). The origin of Ganymede's polar caps, Icarus, 191, 193–202.CrossRefGoogle Scholar
Bland, M. and Showman, A. (2007). The formation of Ganymede's grooved terrain: Numerical modeling of extensional necking instabilities, Icarus, 189, 439–456.CrossRefGoogle Scholar
Howard, A. and Moore, J. (2008). Sublimation-driven erosion on Callisto: A landform simulation model test, Geophys. Res. Lett., 35, CiteID L03203.CrossRefGoogle Scholar
Bland, M., Showman, A., and Tobie, G. (2009). The orbital thermal evolution and expansion of Ganymede, Icarus, 200, 207–221.CrossRefGoogle Scholar
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Schenk, P. M. (1991). Ganymede and Callisto: Complex crater formation and planetary crusts, J. Geophys. Res., 96, 15 635–15 664.CrossRefGoogle Scholar
Schenk, P. M. and McKinnon, W. B. (1991). Dark ray and dark floor craters on Ganymede and the provenances of large impactors in the Jovian system, Icarus, 89, 318–346.CrossRefGoogle Scholar
Schenk, P. M. (1993). Central pit and dome craters: Exposing the interiors of Ganymede and Callisto, J. Geophys. Res., 98, 7475–7498.CrossRefGoogle Scholar
Zahnle, K., Schenk, P., Sobieszczyk, S., Dones, L., and Levison, H. (2001). Differential cratering of synchronously rotating satellites by ecliptic comets, Icarus, 153, 111–129.CrossRefGoogle Scholar
Schenk, P. (2002). Thickness constraints on the icy shells of the Galilean satellites from a comparison of crater shapes, Nature, 417, 419–421.CrossRefGoogle ScholarPubMed
Schenk, P. and Ridolfi, F. (2002). Morphology and scaling of ejecta deposits on icy satellites, Geophys. Res. Lett., 29, doi:10.1029/2001GRL013512.CrossRefGoogle Scholar
Zahnle, K., Schenk, P., Levison, H., and Dones, L. (2003). Cratering rates in the Outer Solar System, Icarus, 163, 263–289.CrossRefGoogle Scholar
Schenk, P., Chapman, C., Zahnle, K., and Moore, J. (2004). Ages and interiors: The cratering record of the Galilean satellites. In Jupiter, ed. Bagenal, F., Dowling, T. and McKinnon, W.. Cambridge University Press, Cambridge/New York, pp. 427–456.Google Scholar

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  • Supplemental readings
  • Paul Schenk, Lunar and Planetary Institute, Houston
  • Book: Atlas of the Galilean Satellites
  • Online publication: 05 June 2012
  • Chapter DOI: https://doi.org/10.1017/CBO9780511676468.013
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  • Supplemental readings
  • Paul Schenk, Lunar and Planetary Institute, Houston
  • Book: Atlas of the Galilean Satellites
  • Online publication: 05 June 2012
  • Chapter DOI: https://doi.org/10.1017/CBO9780511676468.013
Available formats
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  • Supplemental readings
  • Paul Schenk, Lunar and Planetary Institute, Houston
  • Book: Atlas of the Galilean Satellites
  • Online publication: 05 June 2012
  • Chapter DOI: https://doi.org/10.1017/CBO9780511676468.013
Available formats
×