Jump to content

Lavendulan

From Wikipedia, the free encyclopedia
Lavendulan
General
CategoryArsenate mineral
Formula
(repeating unit)
NaCaCu5(AsO4)4Cl·5H2O
IMA symbolLvd[1]
Strunz classification8.DG.05
Dana classification42.9.4.2
Crystal systemMonoclinic
Crystal classPrismatic (2/m)
(same H-M symbol)
Space groupP21/n[2]
Identification
Formula mass1,062.00 g/mol
ColorBlue or greenish blue
Crystal habitThin botryoidal crusts of minute radiating fibers or thin rectangular, pseudo-orthorhombic plates[3][2]
TwinningCommon[2]
CleavageGood on {010}, distinct on {100} and {001}
FractureUneven
TenacityBrittle
Mohs scale hardness2+12[2][4][5] 2+12 to 3[3]
LusterVitreous to waxy, satiny in aggregates
StreakLight blue
DiaphaneityTranslucent
Specific gravity3.54[2][4][5] 3.84[3]
Optical propertiesBiaxial (−), nearly uniaxial (−)
Refractive indexNx = 1.645 Ny = 1.715 Nz = 1.725[3]

Nx = 1.660 Ny = 1.715 Nz = 1.734[2]
Nx = 1.66 Ny = 1.715 Nz = 1.734[4]

omega = 1.748 epsilon = 1.645[5]
PleochroismO = pale blue to pale greenish blue, E = blue to greenish blue
SolubilityEasily soluble in hydrochloric acid[6]
Other characteristicsNot radioactive
References[3][2][4][5]

Lavendulan is an uncommon arsenate mineral in the lavendulan group. It is known for its characteristic intense electric blue colour. Lavendulan is very similar to Lemanskiite, the analogue trihydrate mineral, to the point of them being considered dimorphs. Lemanskiite is tetragonal, but lavendulan is monoclinic.[7] Lavendulan has the same structure as sampleite, and the two minerals form a series.[8] It is the calcium analogue of zdenĕkite and the arsenate analogue of sampleite.

Lavendulan was originally named for the lavender color of the "type" specimen, which has since been determined to be a mixture with no relationship to modern lavendulan. The mineral which is now called lavendulan is not a lavender blue color, and has no relationship to the "type" material from Annaberg.[2] It often contains potassium, cobalt and nickel as impurities.[3]

Unit cell

[edit]

Although lavendulan is monoclinic, the angle β is very close to 90°, making the mineral pseudo-orthorhombic. Most references describe the lavendulan unit cell as an orthorhombic cell containing 8 formula units (Z = 8) but Mindat.org describes a monoclinic unit cell with the length of the c axis halved, and only 4 formula units per unit cell (Z = 4) and space group P21/n.[2] Unit cell parameters are reported as

  • a = 9.73 Å, b = 41.0 Å, c = 9.85 Å, Z = 8[3]
  • a = 9.815 Å, b = 40.394 Å, c = 9.99 Å, Z = 8[4]
  • a = 9.73 Å, b = 41.0 Å, c = 9.85 Å, Z = 8[5]
  • a = 10.011 Å, b = 19.478 Å, c = 10.056 Å, β = 90.37°, Z = 4[2]

Physical properties

[edit]

Lavendulan is a blue or greenish blue translucent mineral, with a vitreous to waxy luster, satiny in aggregates, and a light blue streak. It occurs as thin botryoidal crusts of minute radiating fibers or as thin rectangular, pseudo-orthorhombic plates, with cleavage in three directions, nearly perfect perpendicular to the b crystal axis,[4] and distinct perpendicular to the a and c axes. Twinning is common.[2] The mineral is brittle, with an uneven fracture. It is quite soft, with hardness 2.5, between gypsum and calcite, and relatively dense; its specific gravity is 3.84, close to that of topaz, and much denser than quartz (specific gravity 2.5 to 2.7). It is easily soluble in hydrochloric acid.[6]

Optical properties

[edit]

The refractive index varies with the direction of propagation of the light, and varies between 1.64 and 1.75. This is quite high, between topaz and ruby. Lavendulan is biaxial (−), and most sources quote values for three refractive indices, for light travelling parallel to the three crystal axes. One source,[5] however, gives lavendulan as nearly uniaxial (−), and quotes only two refractive indices, for the ordinary and extraordinary rays.

  • Nx = 1.645 Ny = 1.715 Nz = 1.725[3]
  • Nx = 1.660 Ny = 1.715 Nz = 1.734[2]
  • Nx = 1.66 Ny = 1.715 Nz = 1.734[4]
  • Nω = 1.748 Nε = 1.645.[5]

Lavendulan is pleochroic, with O = pale blue to pale greenish blue and E = blue to greenish blue.[2][5]

Environment

[edit]

Lavendulan is a rare secondary mineral in the oxidised zone of some copper-arsenic deposits.[2]

Type locality

[edit]

A lavender blue mineral was discovered in 1837 by Johann F. A. Breithaupt in Annaberg in the Ore Mountains, which is a mountainous region spanning the Czech Republic and Germany.[9] The mineral was named "lavendulan" after the color, and Annaberg was the designated type locality.[6] In 1853, Vogel found a specimen of lavendulan from Jáchymov, also in the Ore Mountains, which was similar in appearance and characteristics to the material from Annaberg.[6] In 1877 Goldsmith examined some specimens of a turquoise blue arsenate of copper from the cobalt deposits of San Juan, Chile, and announced that they were also lavendulan.[6]

Nearly fifty years later, In 1924, William Foshag announced that the Chilean material was entirely distinct from that from Jáchymov, and he determined that it was a new mineral, and gave it the name freirinite, from the locality, the Blanca Mine, Freirina, Huasca Province, Atacama Region, Chile.[6]

In 1957, however, Claude Guillemin found that lavendulan and freirinite from the type localities gave identical x-ray powder patterns, and freirinite was discredited as a mineral species.[8] Yet another fifty years passed, and in 2007 Geister et al. re-examined Breithaupt's type specimen and found that it was a mixture unrelated to modern lavendulan. The second locality where lavendulan was found is in the Czech Republic, so the type locality of the species was changed to there, namely Jáchymov, Ore Mountains, Karlovy Vary Region.[2] The type material is held at the Mining Academy, Freiberg, Germany, reference 20944.[5]

Occurrences

[edit]

At the type locality, lavendulan occurs associated with erythrite and a cobalt molybdate originally called pateraite, but now discredited.[6] At San Juan, Chile, it is associated with erythrite, cuprite, malachite and cobaltian wad.[5] At the Cap Garonne Mine, Pradet, Var, Provence-Alpes-Côte d'Azur, France, associated minerals are chalcophyllite, cyanotrichite, parnauite, mansfieldite, olivenite, tennantite, covellite, chalcanthite, antlerite, brochantite and geminite.[5] It also occurs at Tsumeb, Namibia, associated with cuprian adamite, conichalcite, o'danielite, tsumcorite, fahleite, quartz, calcite and gypsum.[5]

References

[edit]
  1. ^ Warr, L.N. (2021). "IMA–CNMNC approved mineral symbols". Mineralogical Magazine. 85 (3): 291–320. Bibcode:2021MinM...85..291W. doi:10.1180/mgm.2021.43. S2CID 235729616.
  2. ^ a b c d e f g h i j k l m n o "Lavendulan". Mindat.org. Retrieved 28 June 2022.
  3. ^ a b c d e f g h Dana, James Dwight (1997). Dana's new mineralogy : the system of mineralogy of James Dwight Dana and Edward Salisbury Dana (8th, entirely rewritten and greatly enl. ed.). New York: Wiley. ISBN 978-0471193104.
  4. ^ a b c d e f g Barthelmy, David (2014). "Lavendulan Mineral Data". Webmineral.com. Retrieved 27 June 2022.
  5. ^ a b c d e f g h i j k l Anthony, John W.; Bideaux, Richard A.; Bladh, Kenneth W.; Nichols, Monte C. (2005). "Lavendulan" (PDF). Handbook of Mineralogy. Mineral Data Publishing. Retrieved 14 March 2022.
  6. ^ a b c d e f g Foshag, W.F. (1924). "Freirinite: a new mineral species". American Mineralogist. 9 (2): 30.
  7. ^ Ondrus, P.; Veselovsky, F.; Skala, R.; Sejkora, J.; Pazout, R.; Fryda, J.; Gabasova, A.; Vajdak, J. (1 April 2006). "LEMANSKIITE, NaCaCu5(AsO4)4Cl{middle dot}5H2O, A NEW MINERAL SPECIES FROM THE ABUNDANCIA MINE, CHILE". The Canadian Mineralogist. 44 (2): 523–531. doi:10.2113/gscanmin.44.2.523.
  8. ^ a b "New Mineral Names". American Mineralogist. 42: 123. 1957.
  9. ^ Foshag, W.F. (1 February 1924). "Note on lavendulan from Joachimstal, Bohemia". American Mineralogist. 9 (2): 29–30. Retrieved 5 February 2022.
[edit]