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investigate rapidly pulsed radio-frequency plasmas used for gas conversion. Background Plasma processing systems are often powered by 13.56 MHz radiofrequency (RF) waveforms. However, advances have been held
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energies usually spanning from few tens of eVs to few hundred eVs. These ultrashort pulses serve as a powerful tool for studying light-matter interactions, functioning as either a 'pump' to initiate
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superconducting devices. Their ability to bridge the gap between conventional low-temperature superconductors and highly anisotropic cuprates offers new opportunities to deepen our understanding of unconventional
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amplifies flood hazards. Reservoirs and embankments, while critical for flood protection, may disrupt sediment connectivity, and their failure can deliver catastrophic pulses of water and sediment downstream
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trap (MOT) and a high-finesse Fabry–Perot cavity that are currently under characterization. The next milestones are to transport cold atoms into the cavity and observe the first superradiant pulses
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produced from tiny tin droplets that are heated by powerful laser pulses. At ARCNL, we are now thinking about the next generation of light sources: Can we make more efficient and more powerful EUV sources
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energy-intensive operations, are increasingly unsustainable in the context of decarbonization efforts and the EU Methane Strategy. The ability to upgrade methane into higher-value products, particularly
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Our »Optical Quantum Metrology« research group develops innovative measurement technologies for clinical and industrial applications based on the ability to measure individual the oscillations
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rare-earth-doped fluoride glasses. Indeed, recent advances made in the fabrication of high-purity fluoride glass fibers show that this technology is very appealing for the development powerful and
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Wetsus - European centre of excellence for sustainable water technology | Netherlands | about 2 months ago
pose a health hazard for both aquatic and terrestrial life. The application of gas-phase pulsed electrical discharges (plasma technology) is a promising method for the energy-efficient oxidative