Ellsworthite

Uranpyrochlore
(of Hogarth 1977)
Uranpyrochlore ; (of Hogarth 1977)
General
Category	Pyrochlore group
Formula; (repeating unit)	(Ca,U)2(Ti,Nb,Ta)2O6(OH)
Crystal system	isometric
Space group	Cubic 4/m 3* 2/m
Identification
Color	amber yellow to dark brown; translucent or opaque
Cleavage	None
Fracture	conchoidal fracture
Mohs scale hardness	5.5
Luster	vitreous
Streak	yellow to brownish
Other characteristics	Radioactive
References

Uranpyrochlore (of Hogarth 1977), also known as ellsworthite or betafite (Ca,U)₂(Ti,Nb,Ta)₂O₆(OH), is a rare earth mineral mostly found in the northern parts of North America. It is a uranpyrochlore and is named after Hardy V. Ellsworth of the Canadian Geological Survey by Walker and Parsons.^[3] It is a very uranium- and thorium- rich mineral, which in fact makes it slightly radioactive. Uranium makes up about 17.1% of the mineral.^[4] Ellsworthite is also known as the mineral Betafite. Ellsworthite is a thorium-bearing mineral that is found mostly in Canada and Alaska. It was first discovered in Hybla, Ontario, which is now a ghost town.^[2]

Composition

Ellsworthite has complex hydrous oxides of niobium, tantalum, sodium, calcium, with hydroxyl and fluorine; it may contain as much as 17% uranium.^[5]^[1]^[6]

Structure

The structure of ellsworthite is cubic and has a point group of 4/m 3* 2/m. It is part of the isometric system and has the space group Fd3m. It forms into a Hexoctahedral with {110}, {100}, {113}, {233}, and {230}.^[1]

Sources

^ ^a ^b ^c ^d "Betafite" (PDF). The Handbook of Mineralogy. Archived from the original (PDF) on 22 August 2011. Retrieved 21 October 2013.
^ ^a ^b Frodel, Clifford. (1958). Systematic Mineralogy of Uranium And Thorium, Geological survey bulletin 1064 pg.326-330
^ T. L. Walker and A. L. Parsons (1923) Ellsworthite and associated minerals from Hybla, Ontario. Contrib. Canad. Min., 1923, Univ. Toronto Stud., Geol. Ser., 16, 13-20
^ "A glossary of uranium- and thorium-bearing minerals / by Judith Weiss Frondel and Michael Fleischer". HathiTrust. Retrieved 2024-09-03.
^ Bates, R.G., Wedow Jr, H. (1953). Preliminary summary review of Thorium-Bearing mineral occurrence in Alaska. Geological Survey bulletin 202
^ Hogarth D.D. (1961) A study of Pyrochlore and Betafite, volume 6, issue 5. Canadian Mineralogist pg.610

Bulletin of the National Research Council, Number 77, Physics of the Earth - I Volcanology, By the Subsidiary Committee on Volcanology, Published by the National Research Council of The National Academy of Sciences Washington, D.C., (1931)

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[handbook-1] "Betafite" (PDF). The Handbook of Mineralogy. Archived from the original (PDF) on 22 August 2011. Retrieved 21 October 2013.

[Frodel-2] Frodel, Clifford. (1958). Systematic Mineralogy of Uranium And Thorium, Geological survey bulletin 1064 pg.326-330

[3] T. L. Walker and A. L. Parsons (1923) Ellsworthite and associated minerals from Hybla, Ontario. Contrib. Canad. Min., 1923, Univ. Toronto Stud., Geol. Ser., 16, 13-20

[Frondel-4] "A glossary of uranium- and thorium-bearing minerals / by Judith Weiss Frondel and Michael Fleischer". HathiTrust. Retrieved 2024-09-03.

[bates-5] Bates, R.G., Wedow Jr, H. (1953). Preliminary summary review of Thorium-Bearing mineral occurrence in Alaska. Geological Survey bulletin 202

[6] Hogarth D.D. (1961) A study of Pyrochlore and Betafite, volume 6, issue 5. Canadian Mineralogist pg.610

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