Literature DB >> 24365941

Alignment of low-dose X-ray fluorescence tomography images using differential phase contrast.

Young Pyo Hong1, Sophie-Charlotte Gleber2, Thomas V O'Halloran3, Emily L Que3, Reiner Bleher4, Stefan Vogt2, Teresa K Woodruff5, Chris Jacobsen1.   

Abstract

X-ray fluorescence nanotomography provides unprecedented sensitivity for studies of trace metal distributions in whole biological cells. Dose fractionation, in which one acquires very low dose individual projections and then obtains high statistics reconstructions as signal from a voxel is brought together (Hegerl & Hoppe, 1976), requires accurate alignment of these individual projections so as to correct for rotation stage runout. It is shown here that differential phase contrast at 10.2 keV beam energy offers the potential for accurate cross-correlation alignment of successive projections, by demonstrating that successive low dose, 3 ms per pixel, images acquired at the same specimen position and rotation angle have a narrower and smoother cross-correlation function (1.5 pixels FWHM at 300 nm pixel size) than that obtained from zinc fluorescence images (25 pixels FWHM). The differential phase contrast alignment resolution is thus well below the 700 nm × 500 nm beam spot size used in this demonstration, so that dose fractionation should be possible for reduced-dose, more rapidly acquired, fluorescence nanotomography experiments.

Entities:  

Keywords:  X-ray fluorescence tomography; differential phase contrast

Mesh:

Year:  2013        PMID: 24365941      PMCID: PMC3874022          DOI: 10.1107/S1600577513029512

Source DB:  PubMed          Journal:  J Synchrotron Radiat        ISSN: 0909-0495            Impact factor:   2.616


  21 in total

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