AI Article Synopsis
- Focusing X-rays to nanometer sizes is limited by the challenges in creating high-quality optics and nanostructures.
- Multilayer zone plates are developed to overcome these issues by allowing a wide range of aspect ratios and achieving high resolutions.
- A novel fabrication method using atomic layer deposition and focused ion beam slicing results in zone plates that demonstrate impressive resolution performance, paving the way for advancements in high-energy X-ray microscopy.
Article Abstract
Focusing X-rays to single nanometer dimensions is impeded by the lack of high-quality, high-resolution optics. Challenges in fabricating high aspect ratio 3D nanostructures limit the quality and the resolution. Multilayer zone plates target this challenge by offering virtually unlimited and freely selectable aspect ratios. Here, a full-ceramic zone plate is fabricated via atomic layer deposition of multilayers over optical quality glass fibers and subsequent focused ion beam slicing. The quality of the multilayers is confirmed up to an aspect ratio of 500 with zones as thin as 25 nm. Focusing performance of the fabricated zone plate is tested toward the high-energy limit of a soft X-ray scanning transmission microscope, achieving a 15 nm half-pitch cut-off resolution. Sources of adverse influences are identified, and effective routes for improving the zone plate performance are elaborated, paving a clear path toward using multilayer zone plates in high-energy X-ray microscopy. Finally, a new fabrication concept is introduced for making zone plates with precisely tilted zones, targeting even higher resolutions.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC6145245 | PMC |
| http://dx.doi.org/10.1002/advs.201800346 | DOI Listing |
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