The Correlation Between Play-of-Color Effect And SiO₂ Cavities Size Of Australian Blue Opal

More than 50 Australian opals were chosen to conduct the experiments, including boulder and black opals with blue-green to blue-purple color. Color i5 Spectrophotometer was used to analyze the color of opal samples. Dominant wavelength was put into comparison with hue angle. SEM and AFM were the main means to analyze the internal structure of Opal samples, and the diameter and size of cavities of SiO₂ were measured and discussed.It is revealed that the hue angle of blue-purple opal is 302.15°with 449nm as its dominant wavelength, and so the size of SiO₂ cavities in the sample is about 155.32nm; the hue angle of blue opals is between (256°, 286°) with the dominant wavelength between (471nm, 480nm), and so their size of SiO₂ cavities is between (154.35nm, 182.54nm); the hue angle of blue-green opal is between (183°, 213°) with the dominant wavelength between (489nm, 500nm) and so their size of SiO₂ cavities is between (172.95nm, 193.66nm).Besides, the diameter and size of SiO₂ cavities were analyzed against the dominant wavelength, hue angle, lightness, and saturation to reveal their correlation. It is indicated that the diameter and size of SiO₂ cavities are in positive correlation with the dominant wavelength, but negative correlation with he hue angle. As the diameter and size of SiO₂ cavities grow, the dominant wavelength increases but the hue angle decreases. Also they are in positive correlation with lightness but their correlation with saturation was not discovered.