Neutron-absorption gratings fabricated by ultrasound-assisted filling method based on gadolinium particles

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Abstract

Neutron differential phase-contrast imaging (DPCI) plays a pivotal role in analyzing magnetic domain structures and field gradients in materials, necessitating high-quality neutron absorption gratings for enhanced fringe contrast. Traditional fabrication techniques, typically filling gadolinium (Gd) or Gd-containing materials into the corresponding grating structures, face challenges in achieving optimal Gd filling ratios and thickness, limiting the neutron DPCI system’s performance. This paper introduces an approach utilizing ultrasound-assisted filling method to introduce Gd particles into grating trenches with dense deposition, achieving an absorption grating period of 42 μm. This method achieves an equivalent Gd thickness of 80.3 μm, corresponding to the filling ratio of 53.53%, as confirmed by scanning electron microscopy and x-ray micro-imaging. The utilization of an ultrasound not only improves the Gd filling ratio, but also suggests potential scalability for large-area grating production, marking a significant advancement in neutron DPCI technology by providing high-quality components.

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Lei, Y., Li, X., Wei, C., Li, Z., Xu, G., Liu, X., … Li, J. (2024). Neutron-absorption gratings fabricated by ultrasound-assisted filling method based on gadolinium particles. Journal of Micromechanics and Microengineering, 34(8). https://doi.org/10.1088/1361-6439/ad5b69

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