The binary dissector: phase contrast tomography of two- and three-material objects from few projections
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Authors
Myers, Glenn R.
Gureyev, T. E.
Paganin, D. M.
Mayo, S. C.
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Optical Society of America
Abstract
In X-ray computed tomography (CT) increased information
requirements (e.g. increased resolution) typically lead to a concurrent
increase in the required number of viewing angles, scanning time and
delivered dose. We demonstrate that using phase-contrast imaging it is
possible to “dissect” two- and three-material objects into their component
materials, which in combination with binary tomographic techniques allows
us to satisfy increased information requirements without taking the usual
images at additional viewing angles. This imaging scheme reduces the
scanning time and dose delivered to samples by at least an order of
magnitude when compared to conventional X-ray CT. The effects of noise
on our reconstruction scheme are investigated for simulated data. Finally, a
slice through a glass tube filled with silica and water is reconstructed from
18 projection images taken on an X-ray ultra Microscope (XuM).
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Optics Express
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Open Access