Nature Communications (Aug 2024)

Fast imaging of millimeter-scale areas with beam deflection transmission electron microscopy

  • Zhihao Zheng,
  • Christopher S. Own,
  • Adrian A. Wanner,
  • Randal A. Koene,
  • Eric W. Hammerschmith,
  • William M. Silversmith,
  • Nico Kemnitz,
  • Ran Lu,
  • David W. Tank,
  • H. Sebastian Seung

DOI
https://doi.org/10.1038/s41467-024-50846-4
Journal volume & issue
Vol. 15, no. 1
pp. 1 – 11

Abstract

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Abstract Serial section transmission electron microscopy (TEM) has proven to be one of the leading methods for millimeter-scale 3D imaging of brain tissues at nanoscale resolution. It is important to further improve imaging efficiency to acquire larger and more brain volumes. We report here a threefold increase in the speed of TEM by using a beam deflecting mechanism to enable highly efficient acquisition of multiple image tiles (nine) for each motion of the mechanical stage. For millimeter-scale areas, the duty cycle of imaging doubles to more than 30%, yielding a net average imaging rate of 0.3 gigapixels per second. If fully utilized, an array of four beam deflection TEMs should be capable of imaging a dataset of cubic millimeter scale in five weeks.