Diamond Enhancements

Clarity Treatments

Laser Drilling
Lasers have been used commercially for drilling diamonds since the late 1960's. It is possible to improve the appearance of diamonds which have dark magnetic pyrites and magnetite inclusions by drilling into the diamond surface and then bleaching out or chemically dissolving the inclusions with an etching fluid such as sulphuric acid and saltpetre. The drill holes are then usually filled with a highly refractive wax or synthetic resin and this protects the drill chanel against penetration of dust and dirt. This can be affected if your diamond is ever subjected to heat or acid as often is the case when being set in jewellery or worked on by an unsuspecting working jewller. Although the treatment is fairly permanent, we will not sell you a diamond that has been drilled.

New Tabular Internal Laser Drilling in Diamond

July 22, 2002 - GIA documented a new laser treatment in the Summer 2000 issue of Gems & Gemology (pp. 138–146). The purpose of this treatment, as with typical laser drill holes, is to provide a path for acid solutions to bleach dark, totally internal inclusions. By focusing a laser beam on or near such an inclusion, the technician creates feathers (cleavages) or enlarges existing ones so that they extend to the surface of the faceted diamond. Within the feathers one can see irregular lines or channels (black or white, often with a sugary or frosted appearance) that have been left behind by the laser. In most of the earlier examples, the treatment is fairly obvious when the diamond is examined with magnification.

Recently, in GIA's laboratories on both coasts, they have encountered a number of feathers that have small, white, disk-like or tabular areas with irregular outlines and a sugary texture (see figure), rather than the channels described above. These tabular features are located in the same areas of the fractures where we would expect to see the more obvious irregular channels. The “tablets” are visible when one looks perpendicular to the plane of the feather, and they are practically invisible when the viewing direction is more parallel to the feather.

The fact that we have seen these unusual features in a large number of diamonds clearly indicates that they are being created by design. These tabular characteristics are more difficult to recognize than the irregular channels noted earlier in laser-induced feathers, which makes this treatment more challenging to detect. It is, therefore, very important to use high magnification and various light sources to check all surface-reaching fractures that extend from totally internal inclusions.

Filled Diamonds
This is a more recent enhancement by which inclusions and especially cracks which break the surface can be made more transparent and hence improve the clarity of a cut diamond. The cracks are filled under pressure (50 atmospheres) in a vacuum at high temperature (400 degrees Celcius) with a glass of refractive index close to that of diamond at 2.417. A colour flash similar to that on the surface of a detergent bubble is visible due to the juxtaposition of the two different materials. Unfortunately the process though widely used is neither durable or permanent and will not withstand the cutting and repair processes involved in jewellery work. We will not sell you a diamond that has been filled.

Colour Treatments

Causes of Colour
Nearly all diamonds mined are coloured and range from yellow, brown, and black to blue, green, pink, and mauve fancies. The majority are the near colourless yellow variety of the Cape Series. The colours can be enhanced by various treatments and the detection requires special equipment.

The causes of these colours lies at atomic level. Diamond comprises covalently bonded carbon atoms. In pure diamond visible light does not possess enough energy to excite electrons in the bonds and consequently no light is absorbed in the visible band and all the light falling on the diamond is transmitted and refracted back to the eye causing the diamond to appear completely colourless.

However, most diamonds are not perfect. The diamond lattice contains impurities such as nitrogen and the lattice is sometimes defective with a missing atom. This presence of impurities, or more specifically the electrons associated with the impurities, is the cause of colour in the majority of diamonds.

Yellow Nitrogen is the cause of colour in these diamonds.

Brown Plastic deformation of the diamond lattice whilst in the earth.

Pink & Mauve Plastic deformation of the diamond lattice in the upper mantle region of the earth.

Black Caused by a vast quantity of dark opaque inclusions

Green Caused by alpha particle radiation.

Blue Boron impurity in the lattice.

The rarety and subsequent high value of fancy coloured diamonds has led to the development of artificial colouration of diamonds.
There are two main types:

i Surface coating to disguise real colour of diamond

This is done by coating the diamond surface with a metal halide in a process similar to that used in producing the rich blue bloom seen on camera lenses. It is easily removed by boiling in acid for a couple of minutes, and is attacked when a working jeweller places a hot diamond in acid as part of the process of sizing a ring for example.
A light enamelling is sometimes applied to the lower pavilion facets to simulate or improve a colour.

ii Alter the body colour

Cyclotron Treatment:
This is a device used to accelerate sub atomic particles such as protons, deuterons (heavy hydrogen), and alpha particles (Helium nucleus mass 4, charge +2e) and smash them into the diamond lattice. The colour produced is from dark green to almost black. The particles are charged and depth penetration is poor, forming a skin. The colour is permanent unless the stone is repolished.
Further heating converts the green to yellow, orange or brown.

Electron Treatment:
Electrons are accelerated in to the diamond, again only skin deep and produce a blue to blue/green colour. heat treatment produces orange-yellow, pink- mauve, and brown.

Gamma Ray:
Not used today due to its slow effects taking months to colour a stone. Produces permanent blue and blueish-green colours.

Neutron Treatment:
This is the most common form of irradiation used today. The diamonds are bombarded in a nuclear reactor and produce permanent green. When heated, yellow, orange, brown, pink and mauve colours may be produced.

Radium:
Produces colours from alpha, beta, and gamma radiation, but is not used as stones are left radioactive.

Evidence of treatment:
If you should ever consider buying a coloured diamond have it checked by a reputable laboratory to ascertain whether the colour is natural or otherwise. The difference in price is substantial. A report may also indicate its permanance.


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	Yellow	Nitrogen is the cause of colour in these diamonds.
	Brown	Plastic deformation of the diamond lattice whilst in the earth.
	Pink & Mauve	Plastic deformation of the diamond lattice in the upper mantle region of the earth.
	Black	Caused by a vast quantity of dark opaque inclusions
	Green	Caused by alpha particle radiation.
	Blue	Boron impurity in the lattice.