Abstract
Part 1 The nature of light and colours Planck's radiation law the eye subjective colour problems quantitative colour vision CIE chromatically diagram illuminants colour atlases colour names metamerism defective colour vision. Part 2 Light and crystals: polarization state of light waves classical oscillator models dispersion radiation of electromagnetic waves photons quantum mechanical models classical bond models molecular orbital theory bank theory. Part 3 Reflected light: Fresnel equations tensors relative permittivity tensor propagation of light through anistropic media reflectances of oriented sections colours of oriented sections anisotropy (polarization) colour between crossed and uncrossed polars. Part 4 Mineral data - metals and stoichiometric alloys (including gold, copper, niggliite, arsenic, graphite) rmXn minerals (including algodonite, maldonite, chalcosine, acanthite, ikunolite, pentlandite) RX minerals (including galena, sphalerite, chalcopyrite, stannite, enargite, nickeline, covelline) thiospinels stibnite RX2 minerals (including pyrite group, marcasite group, arsenopyrite group, molybdenite, melonite, krennerite) skutterudite sulphosalts (including tetrahedrite, bournonite, proustite) oxide minerals (including spinel group, rutile group, wolframite group).
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