Optical Mineralogy: Principles and Practice - Brossura

Contenuti

1 Introduction to the microscopic study of minerals.- 1.1 Introduction.- 1.2 The transmitted-light microscope.- 1.3 The appearance of thin sections using transmitted-light microscopy.- 1.4 Systematic description of minerals in thin section using transmitted light.- 1.4.1 Properties in plane polarized light.- 1.4.2 Properties under crossed polars.- 1.5 The reflected-light microscope.- 1.6 The appearance of polished sections under the reflected-light microscope.- 1.7 Systematic description of minerals in polished section using reflected light.- 1.7.1 Properties observed using plane polarized light (PPL).- 1.7.2 Properties observed using crossed polars.- 1.7.3 The external nature of grains.- 1.7.4 Internal properties of grains.- 1.7.5 Vickers hardness number (VHN).- 1.7.6 Distinguishing features.- 1.8 Observations using oil immersion in reflected-light studies.- 1.9 Polishing hardness.- 1.10 Microhardness (VHN).- 1.11 Practical points on the use of the microscope (transmitted and reflected light).- 1.12 Preparation of thin and polished sections.- 2 Silicate minerals.- 2.1 Crystal chemistry of silicate minerals.- 2.2 Mineral descriptions.- AlSiO5 polymorphs 41; Amphibole group 47; Beryl 63; Chlorite group 63; Chloritoid 65; Clay minerals 66; Cordierite 69; Epidote group 71; Feldspar group 78; Feldspathoid family 97; Garnet group 101; Humite group 103; Melilite group 106; Mica group 107; Olivine group 112; Pumpellyite 118; Pyroxene group 119; Scapolite 138; Serpentine 139; Silica group 140; Sphene 145; Staurohte 147; Talc 149; Topaz 150; Tourmaline group 151; Vesuvianite 152; Zeolite group 152; Zircon.- 3 The non-silicates.- 3.1 Introduction.- 3.2 Arsenides.- 3.3 Carbonates.- 3.4 Halides.- 3.5 Hydroxides.- 3.6 Native elements.- 3.7 Oxides.- 3.8 Phosphates.- 3.9 Sulphates.- 3.10 Sulphides.- 3.11 Tungstates.- 4 Transmitted-light crystallography.- 4.1 Introduction.- 4.2 Refraction.- 4.3 The refractive index.- 4.4 The Becke effect and the Becke line.- 4.5 Birefringence and Newton’s Scale of Interference Colours.- 4.5.1 Anomalous interference colours.- 4.6 Isotropic and anisotropic minerals.- 4.7 The isotropic indicatrix.- 4.8 The uniaxial indicatrix.- 4.8.1 Uniaxial crystals under crossed polars.- 4.8.2 Compensation and the determination of interference colour using the quartz wedge.- 4.8.3 The sensitive tint plate.- 4.8.4 Interference figures in uniaxial minerals and their sign.- 4.8.5 Determination of the mineral sign.- 4.9 The biaxial indicatrix.- 4.9.1 Interference figures in biaxial minerals.- 4.9.2 Determination of the sign in biaxial minerals.- 4.9.3 Determination of the extinction angle in biaxial minerals.- 4.10 Pleochroism.- 5 Reflected-light theory.- 5.1 Introduction.- 5.1.1 Reflectance.- 5.1.2 Indicating surfaces of reflectance.- 5.1.3 Observing the effects of crystallographic orientation on reflectance.- 5.1.4 Identification of minerals using reflectance measurements.- 5.2 Colour of minerals in PPL.- 5.2.1 CIE (1931) colour diagram.- 5.2.2 Exercise on quantitative colour values.- 5.3 Isotropic and anisotropic sections.- 5.3.1 Isotropic sections.- 5.3.2 Anisotropic sections.- 5.3.3 Polarization colours.- 5.3.4 Exercise on rotation on reflection.- 5.3.5 Detailed observation of anisotropy.- Appendix A Refractive indices.- A.1 Biaxial minerals.- A.2 Uniaxial positive minerals.- A.3 Uniaxial negative minerals.- A.4 Isotropic minerals.- Appendix B 2V size and sign of biaxial minerals.- Appendix C Properties of ore minerals.- Appendix D Mineral identification chart.- Appendix E Gangue minerals.