Abstract
V/Sc multilayer is experimentally demonstrated for the first time as a high reflectance mirror for the soft X-ray water window region. It primarily works at above the Sc-L edge (λ = 3.11 nm) under near normal incidence while a second peak appears at above the V-L edge (λ = 2.42 nm) under grazing incidence. The V/Sc multilayer fabricated with a d-spacing of 1.59 nm and 30 bilayers has a smaller interface width (σ = 0.27 and 0.32 nm) than the conventional used Cr/Sc (σ = 0.28 and 0.47 nm). For V/Sc multilayer with 30 bilayers, the introduction of B4C barrier layers has little improvement on the interface structure. As the number of bilayers increasing to 400, the growth morphology and microstructure of the V/Sc layers evolves with slightly increased crystallization. Nevertheless, the surface roughness remains to be 0.25 nm. A maximum soft X-ray reflectance of 18.4% is measured at λ = 3.129 nm at 9° off-normal incidence using the 400-bilayers V/Sc multilayer. According to the fitted model, an s-polarization reflectance of 5.2% can also be expected at λ = 2.425 nm under 40° incidence. Based on the promising experimental results, further improvement of the reflectance can be achieved by using a more stable deposition system, exploring different interface engineering methods and so on.
Highlights
In these applications, X-ray optics are the crucial components to focus the photons to the sample and transport the scattered ones to the detector
This is a unique advantage compared to the Cr/Sc multilayer
A Cr/Sc multilayer with the same structure parameters was fabricated as a comparison
Summary
X-ray optics are the crucial components to focus the photons to the sample and transport the scattered ones to the detector. To improve the interface structure, interface engineering methods of introducing barrier layers[9,10,11], reactive sputtering with nitrogen[12], or ion assistance[13] have been studied These methods were applied on the conventional multilayer candidates, like Cr/Sc, Cr/Ti, and Cr/V and a highest reflectance in the water window region of 32% was achieved with www.nature.com/scientificreports/. V/Sc was recently proposed to work near the Sc-L edge by Loch et al.[14], based on the larger positive enthalpy of formation between Sc and V as compared to Sc and Cr15 This leads to a lower miscibility between the material pairs, i.e., low inter-diffusion and low chemical reactivity, which could manifest itself in sharper interfaces and, a higher experimental reflectance despite the lower optical contrast. In order to explore these proposed advantages, we recently fabricated and characterized a series of V/Sc multilayers and a high soft X-ray (SXR) performance is demonstrated
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