Where it forms, where it's found
- Geological setting
Kimberlite, peridotite
- Type locality
- Jagersfontein Mine
- Jagersfontein
- Kopanong Local Municipality
- Xhariep District Municipality
- Free State
- South Africa
-29.7653°, 25.4189°
5recorded occurrences
Physical
- Hardness
- 1Talc
- 2Gypsum
- 3Calcite
- 4Fluorite
- 5Apatite
- 6Orthoclase
- 7Quartz
- 8Topaz
- 9Corundum
- 10Diamond
- Transparency
- Opaque
- Colour
- Black
- Fracture
- Conchoidal
- Density
- 4.39 g/cm³
Optical
- Optical type
- Uniaxial
- Pleochroism
- Weak
dark tan.
- Anisotropism
- Moderate; brownish tan to dark brown
- Tropism
- Anisotropic
- Reflectance R%
- (20.1,20.8) 400, (19.5,20.2) 420, (19.0,19.7) 440, (18.5,19.2) 460, (18.1,18.6) 480, (17.7,18.4) 500, (17.4,18.2) 520, (17.2,17.9) 540, (16.9,17.7) 560, (16.8,17.6) 580, (16.6,17.4) 600, (16.5,17.4) 620, (16.5,17.3) 640, (16.5,17.3) 600, (16.4,17.3) 680, (16.4,17.3) 700
Reflected-light panel
R̄ 17.5 %anisotropic · dual curve
Specimen
White reference
R₁ R₂
Mode
Crystallography
- Space group
- #80
- Cell parameters
- a = 10.361 Å · c = 20.65 Å
- Z
- 3
- Morphology
Grains, to 5 mm
- Type-locality form
Massive, homogeneous and polycrystalline aggregates to 0.5-5 cm. Many appear to be single crystals, sub-spherical in shape with dimpled surfaces and an outer matte luster.
Crystal structure
Chemical composition
Synonyms
- IMA1982-087
- Mathiasiet
- Mongshanite
In other languages
- German
- IMA 1982-087 · Mathiasit
- Italian
- Mathiasite
Classification
Strunz
10th ed.4.CC.40
- 4OxidesClass
- 4.CMetal: Oxygen = 2: 3,3: 5, and similarDivision
- 4.CCWith large and medium-sized cationsGroup
- 4.CC.40MathiasiteSpecies
Dana
8th ed.08.05.01.07
- 08Multiple Oxides Containing Niobium, Tantalum or TitaniumClass
- 08.05AB21O38Type
- 08.05.01Crichtonite group (ABC18 T2 O38)Group
- 08.05.01.07MathiasiteSpecies
CIM
—7.14.6
- 7Oxides and HydroxidesClass
- 7.14Oxides of CrGroup
- 7.14.6MathiasiteSpecies
Group, growth & confusion
AlmeidaitePbZn2(Mn,Y)(Ti,Fe3+)18O36(OH,O)2Mineral—- BotuobinskiteSrFe2+(Ti4+12Cr3+6)Mg2[O36(OH)2]Mineral—
CleusonitePb(U4+,U6+)Fe2+2(Ti,Fe2+,Fe3+)18(O,OH)38Mineral—
CrichtoniteSr(Mn,Y,U)Fe2(Ti,Fe,Cr,V)18(O,OH)38Mineral—
Davidite-(Ce)Ce(Y,U)Fe2(Ti,Fe,Cr,V)18(O,OH,F)38Mineral—
Davidite-(La)La(Y,U)Fe2(Ti,Fe,Cr,V)18(O,OH,F)38Mineral—- Dessauite-(Y)Sr(Y,U,Mn)Fe2(Ti,Fe,Cr,V)18(O,OH)38Mineral—
Gramaccioliite-(Y)(Pb,Sr)(Y,Mn)Fe3+2(Ti,Fe3+)18O38Mineral—- Haitaite-(La)LaU4+Fe3+2(Ti13Fe2+4Fe3+)O38Mineral—
- Landauite(Na,Pb)(Mn2+,Y)(Zn,Fe)2(Ti,Fe3+,Nb)18(O,OH,F)O38Mineral—
Literature, links & citation
Citations
- 1983Haggerty, Stephen E., Erlank, J. R. Smyth. A. J., Rickard, R. S., Danchin, R. V. (1983) Lindsleyite (Ba) and mathiasite (K): two new chromium-titanates in the crichtonite series from the upper mantle. American Mineralogist, 68 (5-6) 494-505
- 1983Gatehouse, B. M., Grey, I. E., Smyth, J. R. (1983) Structure refinement of mathiasite, (K0.62Na0.14 Ba0.14Sr0.10)Σ1.0[Ti12.90Cr3.10Mg1.53Fe2.15Zr0.67Ca0.29(V,Nb,Al)0.36]Σ21.0O38. Acta Crystallographica Section C Crystal Structure Communications, 39 (4). 421-422 doi:10.1107/s0108270183004965DOI: 10.1107/s0108270183004965
- 1994Foley, S., Höfer, H., Brey, G. (1994) High-pressure synthesis of priderite and members of the lindsleyite-mathiasite and hawthorneite-yimengite series. Contributions to Mineralogy and Petrology: 117(2): 164-174.
- 2004Wülser, P.-A., Brugger, J., Meisser, N. (2004) The crichtonite group of minerals: a review of the classification. Bulletin de liaison de la Société Francaise de Minéralogie et Cristallographie: 16: 76-77.
- 2005(2005) Mathiasite. Handbook of Mineralogy. Mineralogical Society of America
Cite this entry
@misc{mineral2026,
author = {Mineral Index editorial board},
title = {Mathiasite — Mineral Index},
year = {2026},
url = {https://mineralindex.org/minerals/mathiasite-2591},
note = {Accessed 2026-05-11}
}