Leiteite

Where it forms, where it's found

Type locality: Tsumeb Mine (Ongopolo Mine)
Tsumeb
Oshikoto Region
Namibia
-19.2270°, 17.7276°

3recorded occurrences

Source · OpenStreetMap

Safety & handling

Physical

1Talc
2Gypsum
3Calcite
4Fluorite
5Apatite
6Orthoclase
7Quartz
8Topaz
9Corundum
10Diamond

Transparent

Colorless to brown

White

flexible

Perfect

(100)

Flexible and inelastic, somewhat sectile

4.3 g/cm³

Optical

Optical type: Biaxial (+) · 2V measured = 26° · 2V calc = 38°
Refractive index: 1.87 – 1.98
Surface relief: Very high
Principal indices: n_α 1.87 · n_β 1.88 · n_γ 1.98
Dispersion: relatively strong
UV response: Not fluorescent
Notes: X ∧ a = +11°; Z ∧ c = +10°; Y = b.

Michel-Lévy diagramhighlighted lineδ = 0.1100

Attainable Michel-Lévy rangeΔ ∈ [0, t·δ_max]1100 nm2nd order

Δ = 0Δ_max

Section thickness10 μmStage rotation0°

Thin-section mosaic70 grains · random 3D orientations

PPL

pleochroism per grain

XPL

independent extinctions · rotate the stage

Interference simulatorsingle grain · PPL ↔ XPL

PPL

pleochroism only · colour blends on rotation

XPL

interference colour · extinct every 90°

Retardation1100 nm

Order2nd order

XPL colour

Crystallography

Crystal system: Monoclinic
Space group: P1 21/c 1
Cell parameters: a = 4.542(1) Å · b = 5.022(1) Å · c = 17.597(5) Å
Cell angles: β = 90.81(3) °
Ratio a:b:c: 1 : 1.106 : 3.874
Z: 4
Morphology: No crystal forms
Type-locality form: Cleavable masses to 7 cm.

Crystal structure

Chemical composition

Constituent elements: Mass composition breakdown
Element Atoms At. mass g/mol Mass g/mol Mass share
33AsArsenic Arsenic 2 74.922 149.844
53.66%
30ZnZinc Zinc 1 65.380 65.380
23.42%
8OOxygen Oxygen 4 15.999 63.996
22.92%
Total 279.220 100.00%
Mass share = atoms × atomic mass ÷ molar mass × 100
From IMA formula

Mass composition breakdown
Element	Atoms	At. mass g/mol	Mass g/mol	Mass share
33AsArsenic	Arsenic	2	74.922	149.844	53.66%
30ZnZinc	Zinc	1	65.380	65.380	23.42%
8OOxygen	Oxygen	4	15.999	63.996	22.92%
	Total	279.220	100.00%

Synonyms

IMA1976-026
Leiteiet

In other languages

French: leiteite
German: Leiteit
Italian: Leiteite

Classification

Strunz

10th ed.

4.JA.05

4OxidesClass
4.JArsenites, antimonites, bismuthites, sulfites, selenites, tellurites; iodatesDivision
4.JAArsenites, antimonites, bismuthites; without additional anions, without H₂OGroup
4.JA.05LeiteiteSpecies

Dana

8th ed.

45.01.07.01

45Acid and Normal Antimonites and ArsenitesClass
45.01MiscellaneousType
45.01.07— unnamed intermediate level —Group
45.01.07.01LeiteiteSpecies

CIM

—

23.3

23ArsenitesClass
23.3— unnamed intermediate level —Group
23.3LeiteiteSpecies

Literature, links & citation

Citations

1906Avery, S. (1906) The constitution of Paris green and its homologues. Journal Of The American Chemical Society, 28 (9). 1155-1164 doi:10.1021/ja01975a005DOI: 10.1021/ja01975a005
1977Fleischer, Michael, Cabri, Louis J., Pabst, and Adolf (1977) New mineral names. American Mineralogist, 62 (11-12) 1259-1262
1977Erd, Richard C., Cesbron, Fabien P., Vachey, Helene, Czamanske, Gerald K. (1977) Leiteite: a New Mineral from Tsumeb. The Mineralogical Record, 8 (3) 95-97
1987Ghose, Subrata, Gupta, P. K Sen, Schlemper, E. O. (1987) Leiteite, ZnAs2O4: A novel type of tetrahedral layer structure with arsenite chains. American Mineralogist, 72 (5-6) 629-632
2005(2005) Leiteite. Handbook of Mineralogy. Mineralogical Society of America

Cite this entry

@misc{mineral2026,
  author    = {Mineral Index editorial board},
  title     = {Leiteite — Mineral Index},
  year      = {2026},
  url       = {https://mineralindex.org/minerals/leiteite-2370},
  note      = {Accessed 2026-05-11}
}