Accessibility options

Switch to preferred accessibility theme:


Increase or decrease the text size:

  • Internet Explorer: View > Text Size > Largest

Keyboard navigation and access keys:

  • A - Accessibility options
  • 0 - Skip navigation
  • 1 - Home
  • 2 - Alexandrite chapters
  • 3 - Alexandrite directory
  • 4 - Alexandrite forums
  • 5 - Alexandrite gemstones
  • 6 - Alexandrite localities
  • 7 - Contact information
  • 8 - About Alexandrite Guide
  • 9 - Sitemap
  • Press ALT + Access Key, then ENTER.

Close

Alexandrite

Tsarstone collectors guide

Alexandrite guide forums

Page 1 of 1 60 results per page
The Tavernier diamond, also known as the Blue Diamond of the Crown or French Blue, is a Type IIb diamond with high levels of boron impurities. The absorption spectrum of boron causes these diamonds to absorb red, orange and yellow light making Type IIb diamonds appear bluish or greyish colors.

Color change in the Tavernier diamond could be actually the Purkinje effect, where in bright light the human eye is more sensitive to red and in dim light the eye is more sensitive to blue-violet light, which causes the color of bluish gemstones to slightly enhance in dim lighting.
Does the famous Tavernier diamond with it substantial color change between incandescent light and daylight show the alexandrite effect?
Usambara effect suggested by the Mineralogical Museum of Oslo after Usambara Mountains of Tanzania, where Norwegian geologist Asbjorn Halvorsen collected chromiferous green tourmaline which displayed strong color change effect. The Usambara effect describes a color change dependant not on the type of illumination as with the Alexandrite effect, but rather on a change of path length of light through the gemstone in a single orientation.

With Alexandrite Effect, if the illumination is stronger in the red wavelengths as with candle light, red becomes the perceived color. In daylight which is stronger in the green wavelengths to which the eye is much more sensitive, the perceived color is green. With Usambara Effect, once the thickness of the gemstone reaches a critical point, dependant on concentration of the elements chromium and vanadium, the perceived color of the transmitted light shifts from green to red. Which explains how Usambara effect was discovered in the first place: gem quality tourmalines from the Umba Valley (Tanzania), each green by transmitted light, when placed on top of one another, showed yellow color, succeeded by orange and red as the thickness of the gemstone pile increased.


Does the color-change behaviour known as the Usambara Effect have any relations to the Alexandrite Effect?
Topic page 1 of 1
1

This section has no relevant content published at this time.

Close options details