Abstract:We demonstrate a new scheme of spectromicroscopy in the extreme ultraviolet (EUV) spectral range, where the spectral response of the sample at different wavelengths is imaged simultaneously. It is enabled by applying ptychographical information multiplexing (PIM) to a tabletop EUV source based on high harmonic generation, where four spectrally narrow harmonics near 30 nm form a spectral comb structure. Extending PIM from previously demonstrated visible wavelengths to the EUV/X-ray wavelengths promises much higher spatial resolution and more powerful spectral contrast mechanism, making PIM an attractive spectromicroscopy method in both the microscopy and the spectroscopy aspects. Besides the sample, the multicolor EUV beam is also imaged in situ, making our method a powerful beam characterization technique. No hardware is used to separate or narrow down the wavelengths, leading to efficient use of the EUV radiation.
References and links1. H. Ade and B. Hsiao, "X-ray linear dichroism microscopy," Science 262, 1427-1429 (1993). 2. H. Ade, J. Kirz, S. L. Hulbert, E. D. Johnson, E. Anderson, and D. Kern, "X-ray spectromicroscopy with a zone plate generated microprobe," Appl. Phys. Lett. 56, 1841Lett. 56, -1843Lett. 56, (1990. 3. P. Horowitz and J. A. Howell, "A scanning x-ray microscope using synchrotron radiation," Science 178, 608-611 (1972) Lett. 110, 197201 (2013).
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