SPEPS収録論文
04.High-Pressure Earth and Planetary Science in the last and next decade
Understanding formations, evolutions and interiors of terrestrial planets and moons is an important research target. Advances in seismological techniques enable us to image the detailed inner structure of the Earth. Dramatic technological developments can provide new observation data about not only the Earth but also the others. Several planetary exploration missions are in progress (e.g., BepiColombo for Mercury; InSight for Mars), and we'll obtain the updated information of planets in the near future. In order to interpret the observation, high-pressure data of planetary materials (silicate minerals as crust and mantle, iron alloys as core) are required. This SPEPS aims to bring together high-pressure and temperature experiments on physics and chemistry of deep planetary materials, natural observation, and theoretical modeling within the principal subject areas of 'high-pressure science'.
Edited by: Akio Suzuki, Tatsuya Sakamaki, Bjorn Mysen
preface: Solid earth sciences
Published: December 15, 2016
Preface for the article collection “High-Pressure Earth and Planetary Science in the last and next decade”
Sakamaki T, Suzuki A, Mysen B
research: Solid earth sciences
Published: September 23, 2016
Melting carbonated epidote eclogites: carbonatites from subducting slabs
Poli S
research: Solid earth sciences
Published: August 22, 2016
Major element composition of an Early Enriched Reservoir: Constraints from 142Nd/144Nd isotope systematics in the early Earth and high pressure melting experiments of a primitive peridotite
Kondo N, Yoshino T, Matsukage K N, Kogiso T
research: Solid earth sciences
Published: June 29, 2016
Ultrahigh-pressure acoustic wave velocities of SiO2-Al2O3 glasses up to 200 GPa
Ohira I, Murakami M, Kohara S, Ohara K, Ohtani E
review: Solid earth sciences
Published: June 8, 2016
Imaging in 3D under pressure: a decade of high-pressure X-ray microtomography development at GSECARS
Yu T, Wang Y, Rivers M L
research: Solid earth sciences
Published: May 12, 2016
Unit cell determination of coexisting post-perovskite and H-phase in (Mg,Fe)SiO3 using multigrain XRD: compositional variation across a laser heating spot at 119 GPa
Zhang L, Meng Y, Mao H-k
research: Solid earth sciences
Published: April 28, 2016
Sound velocities of bridgmanite from density of states determined by nuclear inelastic scattering and first-principles calculations
McCammon C, Caracas R, Glazyrin K, Potapkin V, Kantor A, Sinmyo R, Prescher C, Kupenko I, Chumakov A, Dubrovinsky L
review: Solid earth sciences
Published: April 28, 2016
Mantle hydration and Cl-rich fluids in the subduction forearc
Reynard B
research: Solid earth sciences
Published: March 14, 2016
Impact-induced melting during accretion of the Earth
de Vries J, Nimmo F, Melosh H J, Jacobson S A, Morbidelli A, Rubie D C
research: Solid earth sciences
Published: November 16, 2015
An in situ experimental study of Zr4+ transport capacity of water-rich fluids in the temperature and pressure range of the deep crust and upper mantle
Mysen B