Stacking multiple zone plates for efficient hard x-ray focusing at the Advanced Photon Source

Michael J. Wojcik; Sophie-Charlotte Gleber; Deming Shu; Christian Roehrig; Barry Lai; David Vine; Stefan Vogt

doi:10.1117/12.2187684

18 September 2015 Stacking multiple zone plates for efficient hard x-ray focusing at the Advanced Photon Source

Michael J. Wojcik, Sophie-Charlotte Gleber, Deming Shu, Christian Roehrig, Barry Lai, David Vine, Stefan Vogt

Proceedings Volume 9592, X-Ray Nanoimaging: Instruments and Methods II; 95920G (2015) https://doi.org/10.1117/12.2187684
Event: SPIE Optical Engineering + Applications, 2015, San Diego, California, United States

Abstract

Zone plates are diffractive focusing optics capable of nanometer focusing but limited focusing efficiency at hard x-ray energy. A smaller focus spot is possible by reducing the outer zone width (OZW) while increasing the zone height will generally increase focusing efficiency. The combination of thick zones with small outer zone width, or high aspect ratio, for better performing zone plates is not feasible with state-of-the-art fabrication methods and requires other methods to achieve the aspect ratio desired. Near-field stacking involves two zone plates with the same dimensions and aligning them within the depth of focus in the beam direction and one third of the OZW in the transverse direction. Due to the depth of focus limitation, stacking more than 2 zone plates is extremely difficult, so a new method was proposed and developed to stack zone plates in the intermediate field. Multiple stacking apparatuses were assembled and tested. We will report on results from stacking 80-nm OZW zone plates from a near-field stacking experiment at 10 keV X-ray energy and intermediate field stacking 6 zone plates at 27 keV X-ray energy. We will also present findings on how to combine the stacking techniques.

Citation Download Citation

Michael J. Wojcik, Sophie-Charlotte Gleber, Deming Shu, Christian Roehrig, Barry Lai, David Vine, and Stefan Vogt "Stacking multiple zone plates for efficient hard x-ray focusing at the Advanced Photon Source", Proc. SPIE 9592, X-Ray Nanoimaging: Instruments and Methods II, 95920G (18 September 2015); https://doi.org/10.1117/12.2187684

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