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:''This page is about the geology/optical mineralogy term. For general information about interference, see [[Interference (wave propagation)]] or [[Interference pattern]]s''.
A '''Conoscopic interference pattern''' or '''interference figure''' is the best way to determine if a [[mineral]] is uniaxial or biaxial and also for determining optic sign in [[optical mineralogy]]. The observed interference figure essentially shows all possible [[birefringence]] colors at once, including the extinctions (in dark bands called isogyres).
In [[optical mineralogy]] a [[petrographic microscope]] and cross-[[polarized light]] are often used to view the interference pattern. This is done by placing a [[Bertrand lens]] (Emile Bertrand, 1878) between a high-power microscope objective and the eyepiece. The microscope's condenser is brought up close underneath the specimen to produce a wide divergence of polarized rays through a small point. There are many other techniques used to observe the interference pattern.
A uniaxial mineral will show a typical 'Maltese' cross shape and its isogyres, which will revolve/orbit around a projection of the optical axis as the stage is rotated.
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==References==
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|author=W.D. Nesse
|year=1991
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{{
|author=Albert Johannsen
|year=1914
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{{DEFAULTSORT:Conoscopic Interference Pattern}}
[[Category:Optical mineralogy]]
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