Remote plasma cleaning of Sn from an EUV collector mirror

Shin, Huiyoung; Raju, R.; Ruzic, D. N.

doi:10.1117/12.813353

Cited by 2 publications

(1 citation statement)

References 6 publications

(8 reference statements)

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“…Multilayer mirrors (MLMs) applied to collect extreme ultraviolet light also face the serious problem of reflectance reduction caused by deposition of tin, which comes from a light source in a laser-produced plasma (LPP) lithography machine [14,15]. Shin et al [16] and Sporre et al [17] utilized an ICP source and radiofrequency (RF)-driven helicon plasma source, respectively, to study the cleaning effect of hydrogen plasma on tin contaminants. In the accelerator field, a method based on ICP cleaning was developed by our laboratory to clean hydrocarbon contamination on the internal surface of the superconducting niobium cavity in the accelerator to improve the work function and weaken the secondary electron emission [18].…”

Section: Introductionmentioning

confidence: 99%

Investigation of a facile plasma-driven method for in situ cleaning of metal-based contamination

Wang

Yang

Guo

et al. 2022

Plasma Sci. Technol.

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Self-cleaning of tin contaminants was realized utilizing self-driven hydrogen plasma. Cleaning rates of 0.7-6 nm min-1 were achieved to remove discontinuous tin particles at different powers. The analysis of topography and cross-sectional morphology revealed that the removal of tin particles was achieved through top-down cleaning with hydrogen plasma, where the upper part of spherical tin particles was always more intensely cleaned under the synergistic effect of hydrogen atoms and ions due to the vertical incidence of ions to substrate during the whole cleaning process. The redeposition of tin atoms caused by physical sputtering and its promotion of the chemical cleaning effect was observed for the first time. Reflectance recovery measurements during cleaning and surface analysis of the substrate after cleaning indicated that nondestructive cleaning with reflectance loss of less than 1% can be achieved at a relatively low power of 120 W. The plasma-induced substrate damage, such as holes and valleys, reduced the reflectance of the substrate when cleaning was performed at a high power ＞120 W, which should only be considered to apply in the condition without substrate exposed. This study provides a comprehensive understanding of the removal of discontinuous tin particles using the in-situ self-driven plasma cleaning method, which also provides meaningful guidance for the extension of this method in other potential application fields.

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Section: Introductionmentioning

confidence: 99%

Investigation of a facile plasma-driven method for in situ cleaning of metal-based contamination

Wang

Yang

Guo

et al. 2022

Plasma Sci. Technol.

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Photon flux requirements for extreme ultraviolet reticle imaging in the 22- and 16-nm nodes

Wintz

Goldberg

Mochi

et al. 2010

J. Micro/Nanolith. MEMS MOEMS

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Extreme UV (EUV)-wavelength actinic microscopy yields detailed information about EUV mask patterns, architectures, defects, and the performance of defect repair strategies without the complications of photoresist imaging.To understand the pattern measurement limits of EUV mask microscopy, we investigate the effects of shot noise on aerial image linewidth measurements in the 22-and 16-nm lithography generations. Using a simple model we probe the influence of photon shot noise on measured, apparent line roughness, and find general flux density requirements independent of the specific EUV microscope configurations. Analysis reveals the trade-offs between photon energy density, effective pixel dimension on the CCD, and image log slope (ILS). We find that shot-noise-induced linewidth roughness (LWR) varies inversely with the square root of the photon energy density and is proportional to the magnification ratio. While high magnification is necessary for adequate spatial resolution, for a given flux density, higher magnification ratios have diminishing benefits. We find that to achieve an LWR (3σ) value of 5% of linewidth for dense, 88-nm mask features with a 2.52 normalized ILS value (image log-slope, ILS, equal to 28.6/μm) and 13.5-nm effective pixel width (1000 × magnification ratio), a peak photon flux of approximately 1400 photons/pixel per exposure is required.

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Remote plasma cleaning of Sn from an EUV collector mirror

Cited by 2 publications

References 6 publications

Investigation of a facile plasma-driven method for in situ cleaning of metal-based contamination

Investigation of a facile plasma-driven method for in situ cleaning of metal-based contamination

Photon flux requirements for extreme ultraviolet reticle imaging in the 22- and 16-nm nodes

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