Armin Zjajo, Hongchu Du, Rafal E Dunin-Borkowski, J Murray Gibson, Aram Rezikyan, Michael M J Treacy
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引用次数: 0
Abstract
We investigate how data acquisition rate affects the decoherence of diffraction speckles in fluctuation electron microscopy (FEM) experiments on amorphous silicon at 80 kV. Surprisingly, reducing acquisition time from 256 ms to 1 ms does not significantly enhance the intensity variance peaks related to medium-range order. This suggests that decoherence processes operate at timescales faster than 1 ms. At the highest acquisition rates, noise complicates the variance background estimation. A significant source of non-Poisson noise is the spread of electron signals across adjacent detector pixels. We mostly restore the discrete pulse counting needed to mitigate Poisson noise by rounding pixel intensity to the nearest integer-electron value. However, a residual negative-variance offset grows as the acquisition rate increases. Efficient electron pulse counting in detectors is crucial for processing Poisson noise in FEM, especially with weak signals.
期刊介绍:
Microscopy and Microanalysis publishes original research papers in the fields of microscopy, imaging, and compositional analysis. This distinguished international forum is intended for microscopists in both biology and materials science. The journal provides significant articles that describe new and existing techniques and instrumentation, as well as the applications of these to the imaging and analysis of microstructure. Microscopy and Microanalysis also includes review articles, letters to the editor, and book reviews.
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