Wednesday, April 11, 2007

Synthetic Aquamarine

(via Gemmology Queensland, Vol.1, No.2, February 2000)

Tairus first produced light to dark greenish blue synthetic aquamarine in Russia in the mid-1990s. It is synthesized hydrothermally, and owes its greenish color to small amounts of Fe²+ and a Fe²+ - Fe³+ charge transfer mechanism. It is grown as flat tabular crystals on seed plates oriented at an angle to the c-axis.

Hyrothermally grown synthetic aquamarine has the following gemological properties:
Color: Light to dark greenish blue
Specific gravity: 2.65 – 2.70
Refractive index: 1.587/1.580 – 1.571/1.577
Birefringence: 0.004/0.008
Pleochroism: Weak to strong blue/colorless
Fluorescence (UV): Inert
VIS absorption spectrum: Bands at 800nm (Fe²+ ), 375nm ( Fe³+ ), shoulder at 650nm (Fe²+ - Fe³+ charge transfer, line at 400nm (Ni³+)

It can be discriminated from natural aquamarine by its:

- Chevron-like growth banding that parallels the seed plate. This growth banding which is made up of pyramidal sub-cellular growth subunits is typical of hydrothermal growth occurring of seed plates oriented at an angle to its c-axis.

- Occasional presence of flake-like aggregates of Ni-pyrrhotite and Ni-pyrite.

Chemical analysis will reveal Ni³+ as a contaminant from the walls of the autoclave in which the synthetic aquamarine was grown.

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