SEARCH

SEARCH BY CITATION

References

  • Arakawa, K., and N. Maeno, Mechanical deformation of polycrystalline ice 1h at temperatures 100–263 K: First report, in Physics and Chemistry of Ice, edited by N. Maeno, and T. Hondoh, pp. 464469, Hokkaido, Sapporo, Japan, 1992.
  • Burchell, M. J., and I. D. S. Grey, Oblique hypervelocity impacts on thick glass targets, Materials Sci. Engineering, A303, 134141, 2001.
  • Burchell, M. J., W. Brooke-Thomas, J. Leliwa-Kopystynski, and J. C. Zarnecki, Hypervelocity Impact Experiments on Solid CO2 Targets, Icarus, 131, 210222, 1998.
  • Burchell, M. J., M. J. Cole, J. A. M. McDonnell, and J. C. Zarnecki, Hypervelocity impact studies using the 2MV Van de Graaf accelerator and two-stage light gas gun of the University of Kent at Canterbury, Meas. Sci. Technol., 10, 4150, 1999.
  • Burchell, M. J., I. D. S. Grey, and N. R. G. Shrine, Laboratory investigations of hypervelocity impact cratering in ice, Adv. Space Res., 28, 15211526, 2001.
  • Cintala, M. J., S. Smrekar, F. Hörz, and F. Cardenas, Impact experiments in H2O ice: Cratering, Lunar Planet. Sci. Conf., Abstracts XVI, 131132, 1985.
  • Croft, S. K., Hypervelocity Impact Craters in Icy Media, Lunar Planet. Sci. Conf., Abstracts XII, 190192, 1981.
  • Croft, S. K., S. W. Kieffer, and T. J. Ahrens, Low velocity impact craters in ice and ice saturated sand with implications for Martian crater count ages, J. Geophys. Res., 14, 80238032, 1979.
  • Gault, D. E., Displaced mass, depth, diameter and effects of oblique trajectories for impact craters formed in dense crystalline rocks, The Moon, 6, 3244, 1975.
  • Grey, I. D. S., Hypervelocity impacts on ice, Ph.D. thesis, University of Kent, England, 2000.
  • Grey, I. D. S., M. J. Burchell, and E. Johnson, Hypervelocity impact craters in ammonia-water ice, 32nd Lunar Planet. Sci. Conf., (Abstract 1200), 2001a.
  • Grey, I. D. S., M. J. Burchell, and N. R. G. Shrine, Laboratory investigations of the temperature dependence of hypervelocity impact cratering in ice, Adv. Space Res., 28, 15271532, 2001b.
  • Grundy, W. M., J. Buie, A. Stanberry, and J. R. Spencer, Near-infrared Spectra of icy outer solar system surfaces: remote determination of H2O ice temperatures, Icarus, 142, 536549, 1999.
  • Hartmann, W. K., Moons and Planets, 3rd ed., Wadesworth, 1993.
  • Iijima, Y., M. Kato, M. Arakawa, N. Maeno, A. Fujimura, and H. Mizutani, Cratering Experiments on Ice: Dependence of Crater Formation on Projectile Materials and Scaling Parameter, Geophys. Res. Lett., 22, 20052008, 1995.
  • Kato, M., Y. Iijimi, Y. Okimura, M. Arakawa, N. Maeno, A. Fujimura, and H. Mizutani, Impact experiments on low temperature H2O ice, in Physics and Chemistry of Ice, Hokkaido Univ. Press, 237234, 1992.
  • Kato, M., Y. Iijima, M. Arakawa, Y. Okimura, A. Fujimura, N. Maeno, and H. Mizutani, Ice-on-Ice Impact Experiments, Icarus, 113, 423441, 1995.
  • Kawakami, S., H. Mizutani, Y. Takagi, M. Kato, and M. Kumazawa, Impact Experiments on Ice, J. Geophys. Res., 88, 58065814, 1983.
  • Koschny, D., G. Kargl, and M. Rott, Experimental Studies of the Cratering Process in Porous Ice Targets, Adv. Space Res., 28, 15331537, 2001.
  • Lange, M. A., and T. J. Ahrens, Impact experiments in low temperature ice, Icarus, 69, 506518, 1987.
  • Lange, M. A., and T. J. Ahrens, The dynamic tensile strength of ice and ice-silicate mixtures, J. Geophys. Res., 88, 11971208, 1983.
  • Mizutani, H., Y. Takagi, and S. Kawakami, New Scaling Laws for Impact Fragmentation, Icarus, 87, 307326, 1990.
  • Schulson, E. M., The structure and mechanical behaviour of ice, J. Minerals, Metals, Materials, 51(2), 2127, 1999.
  • Shanbing, Y., S. Gengchen, and T. Qingming, Experimental laws of cratering for hypervelocity impacts of spherical projectiles into thick target, Int. J. Impact Eng., 15, 6777, 1994.
  • Shrine, N. R. G., M. J. Burchell, and I. D. S. Grey, Velocity scaling of impact craters in water ice over the range 1 to 7.3 km s−1, Icarus, 155, 475485, 2002.