Madagascan Purple & Green Bicolour Fluorite Egg - 74mm, 336g

Madagascan Purple & Green Bicolour Fluorite Egg - 74mm, 336g

Regular price £39.99 Sale

Locality - Madagascar
Size – 74 x 53mm
Weight – 336g

This Madagascan fluorite egg flaunts stunning, deeply saturated grape purple tone throughout the stone with an icy white zigzag stripe and a band of semi translucent emerald colour running around it from the base to the tip. There even appears to be small hints of azure blue within its centre when it is held to the light. It has exceptionally rich colour, high contrast and has been expertly crafted, making for an attractive, eye-catching display piece. Madagascan fluorite is quite unusual and the vast majority of fluorite available on the market today is of Chinese origin. This egg will be sent accompanied by a wooden display stand as shown in the photographs.

About Fluorite

Fluorite is the mineral form of calcium fluoride and a member of the halides group, commonly found in hydrothermal and carbonate rocks. It is a visually impressive mineral, occurring in virtually every colour of the spectrum, as it is often tinted with various elemental impurities; because of this unique ability, fluorite has been dubbed 'the most colourful mineral in the world'. In addition, many specimens show vivid blue to white fluorescence under ultraviolet light, caused by its impurities or organic matter in the crystal lattice. Crystals are commonly found in cubic form, though some rarely display octahedral or dodecahedral formation. It has four directions of perfect cleavage, often breaking into octahedron pieces upon impact. Fluorite is incredibly popular with mineral collectors and occurs in many localities throughout the world, with Weardale, England producing some of the finest specimens available today.

Fluorite in History

The name 'fluorite' derives from the Latin noun 'fluo', meaning 'to flow', in reference to its extensive use as a flux in the production of metal. In 1852, George Gabriel Stokes discovered that many specimens of fluorite produce a blue glow when illuminated with ultraviolet light, which he described as being 'beyond the violet end of the spectrum'. This phenomenon was named 'fluorescence' after the mineral in which it was first discovered, a word which we use in many fields today.