Diffraction from Small Volumes. Williams, D. B. & Carter, C. B. In Williams, D. B. & Carter, C. B., editors, Transmission Electron Microscopy: A Textbook for Materials Science, pages 271–282. Springer US, Boston, MA, 2009. Paper doi abstract bibtex A very important concept in TEM is that we only ever diffract from small volumes. These volumes are now called nanoparticles, nanograins, nanobelts, etc. By definition, no TEM specimen is infinite in all directions and all defects are small. Of course, the beam is also never infinitely wide! This chapter therefore discusses how the size of what we are examining influences the appearance of the DP.
@incollection{williams_diffraction_2009,
address = {Boston, MA},
title = {Diffraction from {Small} {Volumes}},
isbn = {978-0-387-76501-3},
url = {https://doi.org/10.1007/978-0-387-76501-3_17},
abstract = {A very important concept in TEM is that we only ever diffract from small volumes. These volumes are now called nanoparticles, nanograins, nanobelts, etc. By definition, no TEM specimen is infinite in all directions and all defects are small. Of course, the beam is also never infinitely wide! This chapter therefore discusses how the size of what we are examining influences the appearance of the DP.},
language = {en},
urldate = {2021-09-02},
booktitle = {Transmission {Electron} {Microscopy}: {A} {Textbook} for {Materials} {Science}},
publisher = {Springer US},
author = {Williams, David B. and Carter, C. Barry},
editor = {Williams, David B. and Carter, C. Barry},
year = {2009},
doi = {10.1007/978-0-387-76501-3_17},
keywords = {Diffuse Scattering, Planar Defect, Reciprocal Space, Shape Effect, Twin Boundary},
pages = {271--282},
}
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