Physical Review Research (Jul 2022)

Nanofocused x-ray photon correlation spectroscopy

  • Sharon Berkowicz,
  • Sudipta Das,
  • Mario Reiser,
  • Mariia Filianina,
  • Maddalena Bin,
  • Giulio Crevatin,
  • Franz Hennies,
  • Clemens Weninger,
  • Alexander Björling,
  • Paul Bell,
  • Fivos Perakis

DOI
https://doi.org/10.1103/PhysRevResearch.4.L032012
Journal volume & issue
Vol. 4, no. 3
p. L032012

Abstract

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Here, we demonstrate an experimental proof of concept for nanofocused x-ray photon correlation spectroscopy, a technique sensitive to nanoscale fluctuations present in a broad range of systems. The experiment, performed at the NanoMAX beamline at MAX IV, uses a novel event-based x-ray detector to capture nanoparticle structural dynamics with microsecond resolution. By varying the nanobeam size from σ=88 nm to σ=2.5μm, we quantify the effect of the nanofocus on the small-angle scattering lineshape and on the diffusion coefficients obtained from nano-XPCS. We observe that the use of nanobeams leads to a multifold increase in speckle contrast, which greatly improves the experimental signal-to-noise ratio, quantified from the two-time intensity correlation functions. We conclude that it is possible to account for influence of the high beam divergence on the lineshape and measured dynamics by including a convolution with the nanobeam profile in the model.