A Model of the Ordinary Chondrite Parent Body: An External Heating Model
スポンサーリンク
概要
- 論文の詳細を見る
By employing the best available constraints including the metamorphic temperature and the volume fraction of the type 6 chondrites in the parent body, we examined the external heating model for the ordinary chondrite parent body and compared the results with those obtained by the internal heating model. The Fourier number (k⊿ t/R^2) obtained is about 0.05 for the H-chon-drite parent body and about 0.15 for the L-chondrite parent body, respectively. The radius R for the H-chondrite parent body is 2-4km for ⊿ t∿(10)^5yr; 5-10km for ⊿ t∿(10)^6yr, where ⊿ t is the duration of the external heat source. For the Lchondrite parent body, the radius is about 0.6 times as large as that of the Lchondrite parent body. In the external heating model, the parent body of the ordinary chondrite must be small because of the short duration of the possible heat sources. The ordinary chondrite parent body (or bodies) may be the survivals (reheated and crushed afterwards, but not grown) of the planetesimals directly disintegrated from the dust layer in the primordial solar nebula.
- 国立極地研究所の論文
著者
-
Fujii Naoyuki
Department Of Earth Sciences Faculty Of Science Kobe University
-
Miyamoto Masamichi
Department Of Earth And Planetary Science Graduate School Of Science University Of Tokyo
-
Miyamoto Masamichi
Department Of Earth Sciences Faculty Of Science Kobe University
関連論文
- Yamato 980459: Mineralogy and petrology of a new shergottite-related rock from Antarctica
- High-temperature annealing of amoeboid olivine aggregates: Heating experiments on olivine–anorthite mixtures
- An attempt to reduce the effects of black material from the spectral reflectance of meteorites or asteroids
- Spectral reflectance (0.25-2.5μm) of powdered olivines and meteorites, and their bearing on surface materials of asteroids
- Shape of Fe-Ni grains and magnetic susceptibility anisotropy in Antarctic chondrites
- The fracture strength of meteorites : Its implication for their fragmentation
- On the shape of Fe-Ni grains among ordinary chondrites
- Effects of minor components on the consolidation of planetesimals and chondrites
- Differences of relative strength among chondrites measured by the vibrational fracturing rate
- A New Strength Measure for Ordinary Chondrites
- Experimental petrology of ancient lunar mare basalt Asuka-881757: Spinel crystallization as a petrologic indicator
- A Classification for Some Small Chondrites in the Yamato-74 and -75 Meteorites
- Mineralogical Examination of the Yamato-75 Achondrites and Their Layered Crust Model
- A Classification of the Yamato-75 Chondrites Based on Chemical Compositions of Olivines and Pyroxenes
- Mineralogical Examination of the Allan Hills No.5 Meteorite
- Yamato Achondrite Polymict Breccias
- A Preliminary Mineralogical Examination of the Yamato-74 Achondrites
- A Classification for the Yamato-74 Chondrites Based on the Chemical Composition of their Olivines and Pyroxenes
- Mineralogy of Yamato 983885 lunar polymict breccia with a KREEP basalt,a high-Al basalt, a very low-Ti basalt and Mg-rich rocks
- Visible and near-infrared reflectance spectroscopy of the Yamato 980459 meteorite in comparison with some shergottites
- Reflectance spectra of the Yamato 000593 nakhlite: Spectroscopic similarities to other nakhlites
- A model for analysis of the spectral reflectance of mineral mixtures
- Penetration of Hypervelocity Projectile into Foamed Polystyrene
- Mineralogy and petrology of Yamato 000593: Comparison with other Martian nakhlite meteorites
- Comparative mineralogy of magmatic inclusions in olivine from the Chassigny and Nakhla martian meteorites
- Origin of olivine megacrysts and the groundmass crystallization of the Dar al Gani 476 shergottite
- Mineralogy and olivine cooling rate of the Dhofar 019 shergottite
- Spectral reflectace (0.25-2.5μm) of olivine and pyroxene from an ordinary chondrite
- Hardness analysis of metallic particles in ordinary chondrites
- A Model of the Ordinary Chondrite Parent Body: An External Heating Model