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File:DWCNT CDI Reconstruction.png

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A simulated double wall nanotube (n1,m1)(n2,m2) can be used to test a CDI algorithm. First, a simulated nanotube is created (left) given the chiral numbers, (26,24)(35,25) in this case. Then a diffraction pattern is created by using the power spectrum function in Digital Micrograph software (middle). Finally, the algorithm is tested by reconstructing a final image (right). This work was performed by Ji Li and Jian-Min Zuo in 2007.

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current22:36, 23 October 2007Thumbnail for version as of 22:36, 23 October 20071,404 × 463 (346 KB)Pythagoruz (talk | contribs)A simulated double wall nanotube (n1,m1)(n2,m2) can be used to test a CDI algorithm. First, a simulated nanotube is created (left) given the chiral numbers, (26,24)(35,25) in this case. Then a diffraction pattern is created by using the power spectrum fun
22:21, 23 October 2007Thumbnail for version as of 22:21, 23 October 20071,404 × 463 (246 KB)Pythagoruz (talk | contribs)A simulated double wall nanotube (n1,m1)(n2,m2) can be used to test a CDI algorithm. First, a simulated nanotube is created (left) given the chiral numbers, (26,24)(35,25) in this case. Then a diffraction pattern is created by using the power spectrum f

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