Optical coherence tomography of encapsulated two-dimensional materials using extreme ultraviolet radiation from high-harmonic generation sources

Felix Wiesner; Felix Wiesner; Julius Reinhard; Julius Reinhard; Johann J. Abel; Martin Wünsche; Martin Wünsche; Gerhard G. Paulus; Gerhard G. Paulus; Silvio Fuchs; Silvio Fuchs; Silvio Fuchs

doi:10.1364/EUVXRAY.2024.EW2A.3

High-Brightness Sources and Light-Driven Interactions Congress
Technical Digest Series (Optica Publishing Group, 2024),
paper EW2A.3
•https://doi.org/10.1364/EUVXRAY.2024.EW2A.3

Optical coherence tomography of encapsulated two-dimensional materials using extreme ultraviolet radiation from high-harmonic generation sources

Felix Wiesner, Julius Reinhard, Johann J. Abel, Martin Wünsche, Gerhard G. Paulus, and Silvio Fuchs

Compact EUV & X-ray Light Sources 2024

Vienna Austria
12–14 March 2024
ISBN: 978-1-957171-35-7

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Metrology Applications I (EW2A)

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F. Wiesner, J. Reinhard, J. J. Abel, M. Wünsche, G. G. Paulus, and S. Fuchs, "Optical coherence tomography of encapsulated two-dimensional materials using extreme ultraviolet radiation from high-harmonic generation sources," in High-Brightness Sources and Light-Driven Interactions Congress, Technical Digest Series (Optica Publishing Group, 2024), paper EW2A.3.

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Abstract

We present the investigation of encapsulated two-dimensional materials with extreme ultraviolet (EUV) coherence tomography. This method is demonstrated on encapsulated graphene using EUV radiation produced by a high-harmonic generation source.

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