Maxixe Type Beryls

(via ICA Early Warning Flash, No.72, July 29, 1993) Grahame Brown writes:

Preamble
Maxixe-type beryls are potentially color fading, strongly hued blue, green, blue green, yellow green, and yellow beryls that have been created by irradiation and selective heat treatment of previously pale to light colored beryl that has a very specific precursor color center.

Although the identifying features of color fading deep blue and deep green Maxixe-type beryls have been known since the early 1970s, little information has been published about the identifying features of color fading strongly hued greenish yellow to yellow green Maxixe-type beryls, or more importantly, somewhat color stable yellow Maxixe-type beryls.

While dark blue and less common dark green Maxixe-type beryls first appeared on world gem markets about 20 years ago, the recent appearance of well faceted, large size (<20 ct), eye clean, strongly hued greenish yellow, yellow green, and yellow Maxixe-type beryls may indicate renewed interest in the manufacture of these color enhanced beryls.

Identification
Irrespective of color, or whether or not the rough has or has not been oriented to display best color through the table of the faceted beryl, Maxixe-type beryls can be identified by:

An essential first step:
Using a conoscope, or equivalent gemological instrument such as a Snow Figure-O-Scope to accurately locate the optic axis (direction of single refraction or direction of the ordinary ray) in the suspect beryl.

As essential second step:
Examine the beryl, in the direction of its ordinary ray, with a hand-held dichroscope. If the beryl is a Maxixe-type, two adjacent dark color (of equal strength) will be observed. In contrast, if the beryl is a naturally colored aquamarine or heliodor, two light color (of equal strength) will be observed.

A confirmatory third step:
Examine the beryl, in the direction of its ordinary ray, with a prism or diffraction grating spectroscope. If the beryl is not examined, precisely along the direction of its ordinary ray, identifying Maxixe-type absorptions, that consist of a distinctive pattern of narrow absorptions of varying strength between 700nm (red) and 550nm (green), may not be observed.

Fade testing by exposing the suspect beryl to intense sunlight for more than a week, or by heating it for 30 minutes at 200-450 F, or by exposing it to a 100 W incandescent light bulb for 150 hours at a distance of 15cm, is an undesirable, destructive form of gem testing.

Consequently this ultimate test of fading potential is unlikely to be applied, except in the research laboratory.

However, in spite of this obvious limitation, fade testing does not provide the ultimate test for color stability. Under any of the fade testing conditions specified above:
Deep blue Maxixe-type beryls do not fade rapidly, and dramatically.
Greenish yellow to yellow green Maxixe-type beryls essentially loose their greenish component and fade to a yellowish hue.
Yellow Maxixe-type beryls loose any green component in their color, and may also fade.