High-temperature centrifuge simulation- new method to study multiphase flow of partially molten zones

Ballhaus, 1996, Mobility of Core Melt during Earth's Accretion, Earth Planet. Sci. Lett, vol. 143, 137, 10.1016/0012-821X(96)00135-5 Campbell, 1978, Plagioclase Buoyancy in Basaltic Liquids; is Determined with a Centrifuge Furnace, Contrib. Mineral. Petrol., vol.67, 369, 10.1007/BF00383297 Dorfman, 1996, Centrifuge-Assisted Falling-Spere Viscometry, Eur. J. Mineral., 8, 507, 10.1127/ejm/8/3/0507 Frenkel', 1995 Gukhman, 1963 Jurewicz, 1993, Experimental Segregation of Iron-Nickel Metal, Iron Sulfide, and Olivine in a Thermal Gradient: Preliminary Results, 743 Kadik, 1989, Simulation of Crystal-Magma Separation in a Centrifuge, Geochem. Internat., vol. 26, 39 Kadik, 1995, Separating the melt from the crystalline matrix: Simulation in a centrifuge, 715 Kadik, 1999, Differentiation of partially molten zonesof the Moon under conditions of multiphase flow of deep-seated material: A high-temperature centrifuge simulation, Solar System Research, vol. 33, 392 Kasatkin, 1960 Lebedev, 1996, Applying High-Temperature Centrifuges for Studying Mechanisms of the Separation of Magmatic Melts From Crystals, Geochem. Internat, vol. 34, 699 Lebedev, 1997, Bull.Izobret., 1997, 151 Lebedev, 1998, Crystal Accumulation and Sorting during Settling in Magmatic Melt: High-Temperature Centrifuge Modeling, Geochem. Intern., vol. 36, 477 Lebedev, 1999, The motion of sulfide phases in a partially molten silicate material: Application to the problemof the formation of planetary cores, Solar System Research, vol. 33, 346 Pokrovskii, 1953 Ramberg, 1967 Roeder, 1977, A Centrifuge Furnace for Separating Phases at High Temperature in Experimental Petrology, Can. J. Earth Sci., vol. 14, 1077, 10.1139/e77-099 Shannon, 1998, Percolation of Core Melts at Lower Mantle Conditions, Science, vol. 280, 1059, 10.1126/science.280.5366.1059 Walker, 1988, Urelite Compaction, Meteoritics, vol.23, 81, 10.1111/j.1945-5100.1988.tb00899.x