スポンサーリンク
Geophysical Institute University of Tokyo | 論文
- Search for the extra-terrestrial materials in deep sea sediments
- Chapter 12 Settling of Dust Particles and Formation of Planetesimals : Part IV Physical Processes in the Solar Nebula : Origin of the Solar System
- Chapter 14 Dissipation of the Solar Nebula : Part IV Physical Processes in the Solar Nebula : Origin of the Solar System
- Chapter 16 Gravitational Scattering between Planetesimals and Their Statistical Behavior : Part V Physical Processes Relevant to the Planetary Growth : Origin of the Solar System
- Chapter 1 Noble Gas Constraints on the Early History of the Earth : Part I Chronology of the Solar System : Origin of the Solar System
- Chapter 11 Cooling of the Solar Nebula : Part IV Physical Processes in the Solar Nebula : Origin of the Solar System
- Chapter 20 Accumulation Process of Planetesimals to the Planets : Part VI Growth of the Planets : Origin of the Solar System
- Magnetic Property and Crystal Chemistry of Ilmenite (MeTiO_3) and Hematite (αFe_2O_3) System : I. Crystal Chemistry
- 東京大学における「岩石磁気研究グループ」の研究活動の概要(弧状列島)
- The First Realtime Measurement of Seafloor Geomagnetic Total Force-Ocean Hemisphere Project Network
- Magnetic anisotropy and porosity of Antarctic chondrites
- Neon Isotope Measurement in the Presence of Helium (〔希ガスの質量分析に関する特集〕)
- Part I. Meridian-Scanning Photometric System for Proton Auroras and Electron Auroras (Constitution of Proton Aurora and Electron Aurora Substorms) (AERONOMY)
- Magnetocrystalline Anisotropy and Magnetostriction of xFe_2TiO_4・(1-x)Fe_3O_4(x>0.5)
- Magnetocrystalline Anisotropy and Rotational Hysteresis in Lithium Substituied Magnetite
- Magnetostriction Constants of xFe_2TiO_4・(1-x)Fe_3O_4
- Magnetocrystalline Anisotropy of xFe_2TiO_4・(1-x)Fe_3O_4
- Metallographic and Magentic Properties of a Yamato Iron Meteorite─Yamato-75-105
- Chapter 15 Hill's Approximation in the Three-Body Problem : Part V Physical Processes Relevant to the Planetary Growth : Origin of the Solar System
- Chapter 18 Collision Rate between Keplerian Particles and the Growth of Planets : Part V Physical Processes Relevant to the Planetary Growth : Origin of the Solar System