*Hiroko Watanabe1, Kunio Inoue1, Taichi Sakai1, William F McDonough1,2,3, Natsue Abe4, Eiichiro Araki5, Takafumi Kasaya5, Masanori Kyo5, Kenta Ueki5, Tamano Omata5, Yasuhiro Yamada6
(1.Research Center for Neutrino Science, Tohoku University, 2.Department of Earth Science, Tohoku University, 3.University of Maryland, 4.Mantle Drilling Promotion Office, MarE3, Japan Agency for Marine-Earth Science and Technology, 5.Japan Agency for Marine-Earth Science and Technology, 6.Kyushu University)
Keywords:geoneutrino, mantle drilling, Earth's deep interior, dynamics
The interior of the Earth remains a mystery. It is some 6400 km to the center of the Earth, but we have only drilled 12 km deep and not yet reached the mantle. Seismologists have imaged Earth’s interior and defined its first order physical structures (e.g. core, lower and upper mantle, and Moho). The compositions of these structures are unknown, at some level, and must be interpret as we do not have techniques to measure their chemistry. To achieve new and unimagined insights into the Earth, we need to broaden our perspective and work across different disciplinary boundaries. New 21st century technologies are providing transformative insights into deep Earth processes and chemistry. We started to construct interdisciplinary community to bring together scientists from physics, engineering and geoscience with a shared goal of the understanding the Earth’s interior and resolving the mysteries.
Various images of the Earth’s interior are based on the each investigating methods, such as geoneutrinos, scientific drilling, seismology, simulation, isotope study etc. Integrating the information enable us to create new knowledge and insights into the nature and processes occurring inside the Earth. This presentation will introduce current situation and future prospects of the interdisciplinary approach.