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Summary

Pole figure in [111] direction of the diamond structure in which diamond, silicon and germanium usually crystallize. The spots in the stereographic projection show the orientation of lattice planes with the 111 in the center. Only poles for a non-forbidden Bragg reflection are shown between Miller indices -10 <= (h,k,l) <= 10. The green spots contain Miller indices up to 3, for example 111, 113, 133, 200 etc in its fundamental order. Red are those raising to 5, ex. 115, 135, 335 etc, while blue are all remaining until 10, such as 119, 779, 10.10.00 etc.

Author: Klaus-Dieter Liss (kdliss)
Date: 17. 9. 2005
Origin: own work


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Under the following conditions:
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File history

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Date/TimeThumbnailDimensionsUserComment
current00:27, 29 October 2021Thumbnail for version as of 00:27, 29 October 2021677 × 677 (7 KB)TSamuelRecompressed carefully via Compress-Or-Die.com
22:48, 4 August 2006Thumbnail for version as of 22:48, 4 August 2006677 × 677 (14 KB)KdlissPole figure in [111] direction of the diamond lattice in which diamond, silicon and germanium usually crystallize. [[The spots in the stereographic projection show the orientation
22:46, 4 August 2006Thumbnail for version as of 22:46, 4 August 2006677 × 677 (14 KB)KdlissPole figure in [111] direction of the diamond lattice in which diamond, silicon and germanium usually crystallize. [[The spots in the stereographic projection show the orientation
22:42, 4 August 2006Thumbnail for version as of 22:42, 4 August 2006677 × 677 (14 KB)KdlissPoloe figures in [111] direction of the diamond lattice in which diamond, silicon and germanium usually crystallize. [[The spots in the stereographic projection show the orientatio
22:39, 4 August 2006Thumbnail for version as of 22:39, 4 August 2006677 × 677 (14 KB)KdlissPoloe figures in [111] direction of the diamond lattice in which diamond, silicon and germanium usually crystallize. [[The spots in the stereographic projection show the orientatio

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