| 1 |
Electrical conductivity of water compressed dynamically to pressures of 70-180 GPa (0.7-1.8 Mbar)
Chau R, Mitchell AC, Minich RW, Nellis WJ
Journal of Chemical Physics, 114(3), 1361, 2001 |
| 2 |
Electrical conductivities of methane, benzene, and polybutene shock compressed to 60 GPa (600 kbar)
Nellis WJ, Hamilton DC, Mitchell AC
Journal of Chemical Physics, 115(2), 1015, 2001 |
| 3 |
Equation of state and electrical conductivity of''synthetic Uranus,'' a mixture of water, ammonia, and isopropanol, at shock pressure up to 200 GPa (2 Mbar)
Nellis WJ, Holmes NC, Mitchell AC, Hamilton DC, Nicol M
Journal of Chemical Physics, 107(21), 9096, 1997 |
| 4 |
Metallization and Electrical-Conductivity of Hydrogen in Jupiter
Nellis WJ, Weir ST, Mitchell AC
Science, 273(5277), 936, 1996 |
| 5 |
Temperature-Measurements of Shock-Compressed Liquid-Hydrogen - Implications for the Interior of Jupiter
Nellis WJ, Ross M, Holmes NC
Science, 269(5228), 1249, 1995 |
| 6 |
Pseudotachylites Generated in Shock Experiments - Implications for Impact Cratering Products and Processes
Fiske PS, Nellis WJ, Lipp M, Lorenzana H, Kikuchi M, Syono Y
Science, 270(5234), 281, 1995 |
