Jimthompsonite

Jimthompsonite is a magnesium iron silicate mineral with chemical formula (Mg,Fe(2+))5Si6O16(OH)2. It is a triple chain silicate (or inosilicate) along with clinojimthompsonite and chesterite. They were described in 1977 by Burham and Veblen. They attracted great mineralogical attention because they were the first examples of new chain silicate structures among a large group known as biopyriboles whose name is derived from the words biotite, pyroxene, and amphiboles.

James B. Thompson, Jr. postulated the existence of the new biopyroles in 1970. The theory proved correct when jimthompsonite, clinojimthompsonite and chesterite were discovered in the Carlton Quarry in Windsor County, Vermont in 1977.

The new minerals are found intergrown with the amphiboles anthophyllite and cummingtonite in sprays up to 5 cm long. They are all colorless to pale pinkish-brown and transparent. As for pyroxene and amphiboles, the type of chain structure dictates the angle between the two distinctive cleavages.

The cleavages of jimthompsonite are at 142 degrees and 38 degrees, and 135 degrees and 45 for chesterite; compared to the cleavage angles of pyroxene at about 94 degrees and 86 degrees and amphibole about 124 and 56 degrees.

Composition
The chemical formula of jimthompsonite is (Mg,Fe++)5Si6O16(OH)2. Veblen and Durham determined the percentages of jimthompsonite as follows:
 * Magnesium 14.71% Mg 24.40% MgO
 * Iron 11.27% Fe 14.50% FeO
 * Silicon 27.20% Si 58.20% SiO2
 * Hydrogen 0.33% H 2.91% H2O
 * Oxygen 46.49% O

Some of the other characteristics of jimthompsonite are that it has an orthorhombic crystal system dipyramidal with H-M symbol (2/m 2/m 2/m) and space group: Pbca. It has a perfect cleavage, its colorless to pink brown with a density of 3.03 g/cm3 and hardness of 2–2.5 gypsum. It has a white streak and silky-pearly luster.

Origin
It is found in the Carleton talc quarry, near Chester, Windsor County, Vermont, US. The name triple chain silicate comes from a wide complex chain structure as silicon being the most dominant element in its composition. It was named for James Burleigh Thompson, Jr. (1921–2011), petrologist of Harvard University, Cambridge, Massachusetts, US.