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, complementary information. THz radiation in particular has been shown to be sensitive to nanoscale electrical conductivity. Project goal In this project you will use THz, near-infrared, and visible
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of such lasers leads to low overall efficiency in converting electrical power to useful EUV light. Replacing gas lasers with much more efficient solid-state lasers may significantly improve efficiency, as
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deformations on the scale of only a few atomic spacings are starting to challenge the future of nanolithography technology, limiting the achievable feature size in semiconductor chips. In this project, you will
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of semiconductor devices. Friction-induced stresses and deformations on the scale of only a few atomic spacings are starting to challenge the future of nanolithography technology, limiting the achievable feature
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on the fundamental physics and chemistry involved in current and future key technologies in nanolithography, primarily for the semiconductor industry. ARCNL is a public-private partnership between the Dutch Research
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converting electrical power to useful EUV light. Replacing gas lasers with much more efficient solid-state lasers may significantly improve efficiency, as well as output power. It is currently however unclear
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the conductivity of 2D and 3D materials on the micrometer and nanometer scale. In one planned mode of operation the THz microscope will be used in combination with a camera, to take THz pictures with several