Affiliation:
1. Lund University
2. Max Born Institute for Nonlinear Optics and Short Pulse Spectroscopy
3. Technische Universität Berlin
4. Helmholtz-Zentrum Berlin für Materialien und Energie GmbH
Abstract
Soft-x-ray holography which utilizes an optics mask fabricated in direct contact with the sample, is a widely applied x-ray microscopy method, in particular, for investigating magnetic samples. The optics mask splits the x-ray beam into a reference wave and a wave to illuminate the sample. The reconstruction quality in such a Fourier-transform holography experiment depends primarily on the characteristics of the reference wave, typically emerging from a small, high-aspect-ratio pinhole in the mask. In this paper, we study two commonly used reference geometries and investigate how their 3D structure affects the reconstruction within an x-ray Fourier holography experiment. Insight into these effects is obtained by imaging the exit waves from reference pinholes via high-resolution coherent diffraction imaging combined with three-dimensional multislice simulations of the x-ray propagation through the reference pinhole. The results were used to simulate Fourier-transform holography experiments to determine the spatial resolution and precise location of the reconstruction plane for different reference geometries. Based on our findings, we discuss the properties of the reference pinholes with view on application in soft-x-ray holography experiments.
Funder
Helmholtz Young Investigator Group Program
Vetenskapsrådet
NanoLund, Lunds Universitet
Subject
Atomic and Molecular Physics, and Optics
Cited by
4 articles.
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