Abstract

Near- and far-field characteristics of a germanium soft x-ray laser at the wavelengths of 23.2–23.6 nm ( J = 2-1 transitions) and 19.6 nm ( J = 0-1 transition) are given for quantitative evaluation of the germanium laser for holographic applications. In-line Gabor holography of simple structured objects, such as thin opaque fibers and a standard electron microscope test specimen, is demonstrated. The holograms were recorded on PMMA (polymethyl methacrylate) photoresists and Ilford Q-plates. The holograms recorded on PMMA were retrieved with an atomic force microscope. The object image was reconstructed by numerical reconstruction with phase retrieval algorithm, resulting in a clear, ghost-free image with sharp edges which infer sub- μ m resolution. Future directions for x-ray laser holography are briefly discussed.

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