期刊
APPLIED PHYSICS B-LASERS AND OPTICS
卷 128, 期 3, 页码 -出版社
SPRINGER HEIDELBERG
DOI: 10.1007/s00340-022-07767-1
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资金
- European Reserach Council (ERC) [802648]
- Dutch Research Council [15697]
- European Research Council (ERC) [802648] Funding Source: European Research Council (ERC)
In this study, we present the calibration results of a channeltron-based electrostatic analyzer operating in time-of-flight mode, which accurately measures a wide range of charge states and energies. The absolute charge-state-resolved ion energy distributions have been obtained, providing valuable information for state-of-the-art extreme ultraviolet nanolithography.
We present the results of the calibration of a channeltron-based electrostatic analyzer operating in time-of-flight mode (ESA-ToF) using tin ions resulting from laser-produced plasma, over a wide range of charge states and energies. Specifically, the channeltron electron multiplier detection efficiency and the spectrometer resolution are calibrated, and count rate effects are characterized. With the obtained overall response function, the ESA-ToF is shown to accurately reproduce charge-integrated measurements separately and simultaneously obtained from a Faraday cup (FC), up to a constant factor the finding of which enables absolute cross-calibration of the ESA-ToF using the FC as an absolute benchmark. Absolute charge-state-resolved ion energy distributions are obtained from ns-pulse Nd:YAG-laser-produced microdroplet tin plasmas in a setting relevant for state-of-the-art extreme ultraviolet nanolithography.
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