Schedule 


Feb. 20  13:00-15:00  Setting  
   15:00  Check in  
   17:30-19:20  ice breaker (Dinner)  
   19:30-19:40  opening remarks  Ohtani, E.
      I. Evolution of the core  (Chair:  E. Ohtani)  
   19:40-20:10  Planetary accretion and core formation  Ricard, Y.
   20:10-20:40  Light element partitioning between silicate- and metallic-liquids under high pressure and high temperature in the natural carbonaceous chondrite composition  Asahara, Y.
   20:40-21:10  Diamond anvil cell experiments applied to the geochemistry of Earth's core formation  Siebert, J.
   21:10-22:00  Free Discussion  
       
 Feb. 21    II. Core properties and planetary cores  (Chair:  C. Sanloup,  H. Terasaki)  
   08:40-09:10  Polymorphism in molten planetary materials: implications for core formation and core composition models  Sanloup, C.
   09:10-09:30  The dependence of pressure and temperature on density of liquid Fe-3.5wt%C  Shimoyama, Y.
   09:30-09:50  Density and thermophysical properties of liquid Fe-O  Takubo, Y.
   09:50-10:10  Sound velocities of liquid Fe-S and Fe-Si at high pressure  Nishida, K.
   10:10-10:30  Sound velocity and density measurement of Ni-S liquid at high pressure  Terasaki, H.
   10:30-10:40  break  
     III. Thermal structure of the core  (Chair: T. Kondo, G. Morard )  
   10:40-11:10  Core stratification from high thermal conductivity and implications for thermal evolution  Labrosse, S.
   11:10-11:30  Stability and melting relations of Fe3C: Implication for the carbon in the Earth's core  Takahashi, S.
   11:30-11:50  Melting experiments of Fe-O-S at high pressure  Sakamaki, T.
   11:50-12:10  Melting relationships of the Fe-S-Si system at high pressure; Implications for the Earth's core  Sakairi, T.
   12:00-13:20  lunch  
     IV. Outer core  (Chair: G. Fiquet)  
   13:20-13:50  Melting properties and equations of state of liquid iron alloys up to megabar pressure  Morard, G.
   13:50-14:10  Sound velocities of liquid iron alloys under Earth’s core conditions by laser-shock compression  Sakaiya, T.
   14:10-14:40  Iron-alloy water reaction and light elements in the Earth's core  Kondo, T.
   14:40-14:50  photo session & break  
   14:50-16:30  poster session  
      hot spa session  
   18:00-20:30  Dinner (Banquet)  
   21:00-22:00  Free Discussion  
       
 Feb. 22    V. Inner core  (Chair: S. Labrosse)  
   09:00-09:30  Sound velocity measurements on iron and alloy at high pressure and high temperature: a window on the Earth's core composition  Fiquet, G.
   09:30-09:50   How much sulfur in the inner core?  Kamada, S.
   09:50-10:20  Physical properties and chemical and thermal structures of the inner core  Ohtani, E.
   10:20-11:00  Discussion & Future perspectives  
   11:00-11:10  concluding remarks  Terasaki, H.
   11:10-12:00  hot spa session  
   12:00-13:00  lunch  
   13:00  adjourn  


   


<Poster Session>  Poster size: Height 120cm, width 90cm

   1 Melting temperature and melt composition in the Fe-O-S system at lunar core conditions    Akamatsu, H.
   2 Sound velocity of FeSi alloy at high pressure conditions by the laser-shock compression    Hosogi, R.
   3 Magnetic transition of 57Fe enriched Fe3S based on a synchrotron Moss-bauer spectroscopy    Kamada, S.
   4 Spin transition of ferropericlase under the lower mantle condition   Hamada, M.
   5 Sound velocity of liquid Fe-Ni-C alloy at high pressure and temperature   Kuwabara, S.
   6 Equation of state of Fe3+-bearing perovskite in lower mantle and effects of spin transition of iron   Mashino, I.
   7 Nature and origin of diamond in Almahatta Sitta Ureilite    Miyahara, M.
   8 High-pressure silica polymorphs in lunar samples  Kaneko, S.
   9 Transformation of Ca-perovskite in MORB under the deep mantle condi-tions   Nishitani, N
   10 Reaction of aluminous perovskite and water at high pressure and temperature:Implications for water transport into deep lower mantle and core    Ohira, I
   11 Sound velocities of laser-shocked Fe-Ni-Si alloys under Earth’s core pressure  Yokoyama, N.
   12 Density measurement of melts by X-ray absorption method at KEK NE7A station   Suzuki, A.
   13 Effect of light elements on potassium partitioning between metal and silicate and heat source in the Earth’s core the Earth’s core   Watanabe, K..
   14 In-situ determination of NOHD species in coexisting silicate melt and silicate fluid    Tomita, T..
   15 Melting relations of Fe-Ni-Si and Fe-Ni alloys up to 135 GPa   Takahata, A.