Title of article
Beam spreading and spatial resolution in thick organic specimens
Author/Authors
Hyun، نويسنده , , Jerome K. and Ercius، نويسنده , , Peter and Muller، نويسنده , , David A.، نويسنده ,
Issue Information
دوماهنامه با شماره پیاپی سال 2008
Pages
7
From page
1
To page
7
Abstract
Tomography using a scanning transmission electron microscope (STEM) offers intriguing possibilities for the three-dimensional imaging of micron-thick, biological specimens and assemblies of nanostructures, where the image resolution is potentially limited only by plural elastic scattering in the sample. A good understanding of the relationship between material thickness and spatial resolution is required, with particular emphasis on the competition between beam divergence (a geometrical effect from the converged STEM probe) and beam spreading (an unavoidable broadening due to plural elastic scattering). We show that beam divergence dominates beam spreading for typical embedding polymers beyond the 100-nm thickness range and that minimization of this effect leads to enhanced spatial resolution. The problems are more pronounced in spherical-aberration-corrected instruments where the depth of field is shorter.
Keywords
STEM , Spatial resolution , Thick section , Plural elastic scattering
Journal title
Ultramicroscopy
Serial Year
2008
Journal title
Ultramicroscopy
Record number
2157446
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