Rock-forming Minerals: MicasM. E. Fleet, William Alexander Deer, Robert Andrew Howie, J. Zussman Description based on: v. 3, published in 2003. |
Contents
Muscovite and Phengite | 41 |
Geothermobarometry from mineral compositions | 129 |
Thermodynamic properties | 138 |
Geochronology | 149 |
Optical and physical properties | 158 |
Paragonite | 287 |
Other Dioctahedral True Micas | 309 |
Biotite | 325 |
Experimental | 398 |
Geothermobarometry from mineral compositions | 444 |
Thermodynamic properties | 458 |
Optical and physical properties | 475 |
Lithium Micas | 651 |
Other Trioctahedral True Micas | 691 |
Brittle Micas | 701 |
| 741 | |
Common terms and phrases
Acta Amer anal annite assemblage Bailey batholith biotite Brigatti cations celadonite Chatterjee Chem chemical chlorite Clay Minerals clintonite cm¹ coexisting complex component composition Contr Cosmochim crystal structure decrease deposits diffraction eclogite end-member equilibrium Eugster experimental facies Fe² Fe2+ Fe³ Fe3+ feldspar fluid fractionation garnet Geochim Geol granite granitoids Guidotti H₂O hydrothermal igneous illite increase infrared interlayer cation isotope K-feldspar kbar kyanite lamproite lepidolite lithium micas magmatic margarite Massif melting metamorphic rocks metapelites Mineralogy Mössbauer muscovite octahedral octahedral cation octahedral layer oxidation oxygen paragonite parameters pegmatites pelitic Petr phase relations phengite phlogopite plagioclase pluton polytype potassic quartz range ratio reaction Rieder samples sanidine schists siderophyllite silicates sillimanite solid solution space group spectra spectroscopy stability substitution synthetic Table 42 temperature tetrahedral tetrahedral layer TiO2 trioctahedral micas unit-cell Velde white mica Wones X-ray zinnwaldite zone