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ABSTRACT SINCE Menter's observation1 on electron microscope images of crystal lattices of metal phthalocyanines, several authors2–7 have observed a variety of lattices in this way.

Interpreting the image in terms of the kinematic theory of electron diffraction and Abbe's theory of image formation, Menter concluded that it should consist of parallel lines with

equal spacing. He measured3 the spacings of many images of platinum phthalocyanine and concluded that their average value does in fact coincide with the spacing of the lattice planes. Uyeda

_et al._ 8 suggested that an image of the superlattice spacing of about 90 A. observed in antigorite crystals is useful for checking the magnification of electron micrographs because of its

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support SIMILAR CONTENT BEING VIEWED BY OTHERS GEOMETRIC PHASE ANALYSIS OF MAGNETIC SKYRMION LATTICES IN LORENTZ TRANSMISSION ELECTRON MICROSCOPY IMAGES Article Open access 29 May 2024

ELECTRON HOLOGRAPHY OBSERVATION OF INDIVIDUAL FERRIMAGNETIC LATTICE PLANES Article 03 July 2024 ON THE ORIGIN OF DIFFUSE INTENSITIES IN FCC ELECTRON DIFFRACTION PATTERNS Article 25 October

2023 REFERENCES * Menter, J. W., _Proc. Roy. Soc._, A, 236, 119 (1956). Article  ADS  CAS  Google Scholar  * Labaw, L. W., and Wyckoff, R. G. W., _Proc. Koninkl. Nederl. Akad. V. Wet.

Amsterdam_, B, 59, 449 (1956). CAS  Google Scholar  * Menter, J. W., _Proc. Stockholm Conf. Electron Microscopy_, 88 (1956). Google Scholar  * Neider, R., _Proc. Stockholm Conf. Electron

Microscopy_, 93 (1956). Google Scholar  * Basset, G. A., and Menter, J. W., _Phil. Mag._, 2, 1482 (1957). Article  ADS  Google Scholar  * Brindly, G. W., Comer, J. J., Uyeda, R., and

Zussman, _Acta Cryst._, 11, 99 (1958). Article  Google Scholar  * Ogawa, S., Watanabe, D., Watanabe, H., and Komoda, T., _Acta Cryst._ (in the press). * Uyeda, R., Masuda, T., Tochigi, H.,

Ito, K., and Yotsumoto, H., _J. Phys. Soc. Japan_, 13, 461 (1958). Article  ADS  Google Scholar  * Hashimoto, H., _J. Phys. Soc. Japan_, 13, 534 (1958). Article  ADS  CAS  Google Scholar 

Download references AUTHOR INFORMATION AUTHORS AND AFFILIATIONS * Kyoto Technical University, Matsugasaki, Sakyoku, Kyoto H. HASHIMOTO * Japan Electron Optics Laboratory Co., Ltd., 930

Kamirejaku, Mitaka, Tokyo H. YOTSUMOTO Authors * H. HASHIMOTO View author publications You can also search for this author inPubMed Google Scholar * H. YOTSUMOTO View author publications You

can also search for this author inPubMed Google Scholar RIGHTS AND PERMISSIONS Reprints and permissions ABOUT THIS ARTICLE CITE THIS ARTICLE HASHIMOTO, H., YOTSUMOTO, H. Spacing Anomaly in

Electron Microscope Images of Crystal Lattices. _Nature_ 183, 1001–1002 (1959). https://doi.org/10.1038/1831001a0 Download citation * Issue Date: 04 April 1959 * DOI:

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