Stolzite
Stolzite | |
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Stolzite, Broken Hill, Australia (size: 3.6 x 3.0 x 2.6 cm) | |
General | |
Category | Tungstate minerals |
Formula (repeating unit) | PbWO4 |
Strunz classification | 07.GA.05 |
Crystal symmetry | Tetragonal 4/m - dipyramidal |
Unit cell | a = 5.461 Å, c = 12.049 Å; Z = 4 |
Identification | |
Color | Reddish brown, brown, yellowish gray, smoky gray, straw-yellow, lemon-yellow; may be green, orange, red |
Crystal habit | Crystals dipyramidal to tabular |
Crystal system | Tetragonal |
Cleavage | Imperfect on {001}, indistinct on {011} |
Fracture | Conchoidal to uneven |
Tenacity | Brittle |
Mohs scale hardness | 2.5 - 3 |
Luster | Resinous, subadamantine |
Streak | White |
Diaphaneity | Translucent to transparent |
Specific gravity | 8.34 |
Optical properties | Uniaxial (-) |
Refractive index | nω = 2.270 nε = 2.180 - 2.190 |
Birefringence | δ = 0.090 |
References | [1][2][3] |
Stolzite is a mineral, a lead tungstate; with the formula PbWO4. It is similar to, and often associated with, wulfenite which is the same chemical formula except that the tungsten is replaced by molybdenum. Stolzite crystallizes in the tetragonal crystal system and is dimorphous with the monoclinic form raspite.[2]
Lead tungstate crystals have the optical transparency of glass combined with much higher density (8.28 g/cm3 vs ~2.2 g/cm3 for fused silica). They are used as scintillators in particle physics because of the their short radiation length (0.89 cm), low Molière radius (2.2 cm), quick scintillation response, and radiation hardness.[4] Lead tungstate crystals are used in the Compact Muon Solenoid's electromagnetic calorimeter.[4]
It was first described in 1820 by August Breithaupt, who called it Scheelbleispath and then by François Sulpice Beudant in 1832, who called it scheelitine. In 1845, Wilhelm Karl Ritter von Haidinger coined the name stolzite for an occurrence in Krusne Hory (Erzgebirge), Czech Republic, naming it after Joseph Alexi Stolz of Teplice in Bohemia.[2][3] It occurs in oxidized hydrothermal tungsten-lead ore deposits typically in association with raspite, cerussite, anglesite, pyromorphite and mimetite.[1]
See also
References
- 1 2 Handbook of Mineralogy
- 1 2 3 Mindat.org
- 1 2 Wevmineral data
- 1 2 The CMS Collaboration (2006). "Chapter 1. Introduction". CMS Physics : Technical Design Report Volume 1: Detector Performance and Software. CERN. p. 14. ISBN 9789290832683.
CMS has chosen lead tungstate scintillating crystals for its ECAL. These crystals have short radiation (X0 = 0.89 cm) and Moliere (2.2 cm) lengths, are fast (80% of the light is emitted within 25 ns) and radiation hard (up to 10 Mrad).
Mellor, J. W. "A Comprehensive Treatise on Inorganic and Theoretical Chemistry," Vol.11, Longmans, Green and Co., London, 1931, p. 792.
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