Optimal mapping of x-ray laser diffraction patterns into three dimensions using routing algorithms.

Journal: Physical Review. E, Statistical, Nonlinear, And Soft Matter Physics
Published:
Abstract

Coherent diffractive imaging with x-ray free-electron lasers (XFEL) promises high-resolution structure determination of noncrystalline objects. Randomly oriented particles are exposed to XFEL pulses for acquisition of two-dimensional (2D) diffraction snapshots. The knowledge of their orientations enables 3D imaging by multiview reconstruction, combining 2D diffraction snapshots in different orientations. Here we introduce a globally optimal algorithm that can infer these orientations. We apply it to experimental XFEL data of nanoparticles and so determine their 3D electron density.

Authors
Stephan Kassemeyer, Aliakbar Jafarpour, Lukas Lomb, Jan Steinbrener, Andrew Martin, Ilme Schlichting

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