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Laboratory EUV Sources

 

Wavelengths encompassing extreme ultraviolet (EUV) and soft x-rays are important for a wide range of applications, such as material research, lithography, and chemical analysis. Although these wavelengths can be produced in a synchrotron, these sources are typically limited in both time resolution and continual access. Laboratory based EUV/soft x-ray sources provide increased experimental flexibility, allowing for attosecond temporal resolution as well as continual access for more fundamental studies.

Laboratory tabletop EUV sources can be generated in two ways. The first is via a laser-pulse plasma, in which a metal target, typically tin, is ionised to form a plasma. This produces a broad beam of EUV wavelengths which can be used for lithography-based applications.

High-harmonic generation is the most common way to generate lab based EUV source due to its reliability and precision. It produces a range of coherent EUV – soft x-ray wavelengths that are spatially separated, offering experimental flexibility and optimization. High harmonic generation can produce EUV/soft x-ray sources at rapid speeds, allowing for research such as attosecond nonlinear optics, spin dynamics, and heat transport studies, all on the nanoscale.

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Figure-2-HHG-EUV-Sergey-Zayko-Uni-Gottigen-2048x1720.jpg

Cameras for Laboratory Based EUV Sources

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