Eschen W, Tadesse GK, Klas R, Hilbert V, Tuitje F, Steinert M, Schelle D, Nathanael A, Schrempel F, Schuster V, Zürch M, Pertsch T, Gross H, Spielmann C, Tünnermann A, Limpert J, Rothhardt J (2019)
Publication Type: Conference contribution
Publication year: 2019
Publisher: SPIE
Book Volume: 11370
Pages Range: 232-234
Conference Proceedings Title: Proceedings of SPIE - The International Society for Optical Engineering
Event location: Bol, HRV
ISBN: 9781510635128
Laser development in the recent years has pushed the coherent XUV flux of high-harmonic generation to values that are comparable to synchrotrons1. This development enables Coherent Diffractive Imaging experiments on a lab scale that were before only possible at large scale facilities. In this contribution we present our latest results on table-top lensless XUV-Imaging. Achieving record-high resolutions using a high-order harmonic source at 18 nm with two different imaging modalities. Using the Fourier Transform Holography (FTH) method a record resolution of 23 nm was demonstrated. With the more general ptychographic method we were able to resolve features down to a size of 45 nm. Further, we show our recent advances towards imaging at the technological relevant wavelength of 13.5 nm.
APA:
Eschen, W., Tadesse, G.K., Klas, R., Hilbert, V., Tuitje, F., Steinert, M.,... Rothhardt, J. (2019). Table-top Coherent Diffractive Imaging using a Fiber Laser Driven High-order Harmonic Source. In Igor Jovanovic, Bojan Resan, Karoly Osvay, Giacomo Coslovich (Eds.), Proceedings of SPIE - The International Society for Optical Engineering (pp. 232-234). Bol, HRV: SPIE.
MLA:
Eschen, Wilhelm, et al. "Table-top Coherent Diffractive Imaging using a Fiber Laser Driven High-order Harmonic Source." Proceedings of the Ultrafast Optics XII 2019, Bol, HRV Ed. Igor Jovanovic, Bojan Resan, Karoly Osvay, Giacomo Coslovich, SPIE, 2019. 232-234.
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