Book contents
- Frontmatter
- Contents
- List of contributing authors
- Preface
- Acknowledgments
- 1 Planet formation and protoplanetary dust
- 2 The origins of protoplanetary dust and the formation of accretion disks
- 3 Evolution of protoplanetary disk structures
- 4 Chemical and isotopic evolution of the solar nebula and protoplanetary disks
- 5 Laboratory studies of simple dust analogs in astrophysical environments
- 6 Dust composition in protoplanetary disks
- 7 Dust particle size evolution
- 8 Thermal processing in protoplanetary nebulae
- 9 The clearing of protoplanetary disks and of the proto-solar nebula
- 10 Accretion of planetesimals and the formation of rocky planets
- Appendix 1 Common minerals in the Solar System
- Appendix 2 Mass spectrometry
- Appendix 3 Basics of light absorption and scattering theory
- Glossary
- Index
Appendix 1 - Common minerals in the Solar System
Published online by Cambridge University Press: 24 February 2010
- Frontmatter
- Contents
- List of contributing authors
- Preface
- Acknowledgments
- 1 Planet formation and protoplanetary dust
- 2 The origins of protoplanetary dust and the formation of accretion disks
- 3 Evolution of protoplanetary disk structures
- 4 Chemical and isotopic evolution of the solar nebula and protoplanetary disks
- 5 Laboratory studies of simple dust analogs in astrophysical environments
- 6 Dust composition in protoplanetary disks
- 7 Dust particle size evolution
- 8 Thermal processing in protoplanetary nebulae
- 9 The clearing of protoplanetary disks and of the proto-solar nebula
- 10 Accretion of planetesimals and the formation of rocky planets
- Appendix 1 Common minerals in the Solar System
- Appendix 2 Mass spectrometry
- Appendix 3 Basics of light absorption and scattering theory
- Glossary
- Index
Summary
Mineralogy of chondrite components
Calcium–aluminum-rich inclusions
Our description of meteorite mineralogy starts with the minerals characteristic of the calcium–aluminum-rich inclusions (CAIs). The mineralogy of CAIs varies systematically with their composition. The most Al-rich CAIs contain spinel, hibonite, and/or grossite. More rarely, corundum or calcium mono-aluminate is present. As the bulk composition becomes more Si-rich, the melilite solid solution becomes important. With additional Mg and Si in the bulk composition, fassaite and anorthite are present.
Inclusions that are predominantly melilite with minor spinel, perovskite, and hibonite are referred to as Type A. Most Type-A CAIs have a porous structure and are called fluffy Type-A CAIs. Some Type-A CAIs have a compact form and generally rounded shapes. These are referred to as “compact” Type-A CAIs. Type-B1 CAIs are characterized by coarse-grained, melilite-rich mantles surrounding cores composed of melilite, spinel, fassaite, and anorthite. Type-B2 inclusions have the same mineralogy, but lack the melilite-rich mantle. Type-B3 inclusions contain significant amounts of forsterite in addition tomelilite. Type-C inclusions are similar to Type B2s, but anorthite is more abundant than melilite. All Type-B and Type-C inclusions have compact morphologies.
Chondrules
Aluminum-rich chondrules
Aluminum-rich chondrules are a broad class of objects with compositions intermediate between those of CAIs and the more common ferromagnesian chondrules. Their bulk compositions are generally Mg-, Si-rich and Ca-, Al-poor relative to most CAIs.
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- Protoplanetary DustAstrophysical and Cosmochemical Perspectives, pp. 336 - 339Publisher: Cambridge University PressPrint publication year: 2010