| 固体地球科学(S) |
| セッション小記号 |
地球内部科学・地球惑星テクトニクス(IT) |
| セッションID |
S-IT03 |
| タイトル |
和文 |
Structure, Dynamics & Composition of Earth & Planetary Cores |
| 英文 |
Structure, Dynamics & Composition of Earth & Planetary Cores |
| タイトル短縮名 |
和文 |
The Earth's Core |
| 英文 |
The Earth's Core |
| 代表コンビーナ |
氏名 |
和文 |
Whitaker
Matthew |
| 英文 |
Matthew Whitaker |
| 所属 |
和文 |
Geodynamics Research Center, Ehime University |
| 英文 |
Geodynamics Research Center, Ehime University |
| 共同コンビーナ 1 |
氏名 |
和文 |
Satoru Tanaka |
| 英文 |
Satoru Tanaka |
| 所属 |
和文 |
Institute for Research on Earth Evolution
Japan Agency for Marine-Earth Science and Technology |
| 英文 |
Institute for Research on Earth Evolution
Japan Agency for Marine-Earth Science and Technology |
| 共同コンビーナ 2 |
氏名 |
和文 |
Takehiro Miyagoshi |
| 英文 |
Takehiro Miyagoshi |
| 所属 |
和文 |
Japan Agency for Marine-Earth Science and Technology |
| 英文 |
Japan Agency for Marine-Earth Science and Technology |
| 国際セッション開催希望 |
国際セッションとしての開催を希望する
|
| 発表主要言語 |
英語 |
| スコープ |
和文 |
The Earth's core remains arguably the most enigmatic and problematic
region of the deep Earth's interior. Recent studies in computation,
simulation, experimentation, and seismic propagation have led to new
discoveries and theories on the composition, structure, dynamics,
and evolution of Earth's core, as well as the cores of other
planetary bodies such as the Moon and Mars. We now must bring
together these new data and theories from disparate fields and
integrate them toward advancing our understanding of planetary
cores. This session provides a multidisciplinary forum to discuss
recent research advances and exchange new ideas about future
directions of core study. We welcome contributions on the inner and
outer cores of the Earth, as well as the cores of other planetary
bodies, from a broad variety of disciplines, including experimental
and computational mineral physics, seismology, geodynamics, geo/cosmochemistry,
and any other relevant fields that can contribute to this
discussion. |
| 英文 |
The Earth's core
remains arguably the most enigmatic and problematic region of the
deep Earth's interior. Recent studies in computation, simulation,
experimentation, and seismic propagation have led to new discoveries
and theories on the composition, structure, dynamics, and evolution
of Earth's core, as well as the cores of other planetary bodies such
as the Moon and Mars. We now must bring together these new data and
theories from disparate fields and integrate them toward advancing
our understanding of planetary cores. This session provides a
multidisciplinary forum to discuss recent research advances and
exchange new ideas about future directions of core study. We welcome
contributions on the inner and outer cores of the Earth, as well as
the cores of other planetary bodies, from a broad variety of
disciplines, including experimental and computational mineral
physics, seismology, geodynamics, geo/cosmochemistry, and any other
relevant fields that can contribute to this discussion. |
| 発表方法希望 |
口頭および(または)ポスターセッション
|
|