Enthalpy Posted August 22, 2012 Posted August 22, 2012 Hello semiconductor technologists! I'm thinking at a source of extreme UV for semiconductor lithography, so what would be your wishes, as compared to the first figures that emerge from my rantings? I take 30nm wavelength. Would less be better? I fear fluorescence hampers lithography. Right now I estimate half a watt of light is produced, continuous and monochromatic and coherent, initially in a narrow beam of small divergence. Could that be enough? This absolute silver bullet would cost several millions. Is that any worry? Thanks! Marc Schaefer, aka Enthalpy
Enthalpy Posted August 23, 2012 Author Posted August 23, 2012 Found some answers. ----- All actors consider wavelengths like 13.5nm or 11nm. The synchrotron and undulator I considered is already an old idea, the current advances being fluorescence in various forms, which provides more power than the half-watt typical of synchrotrons and undulators. Present sources are ArF excimer lasers, they deliver for instance 60W at 193nm. Lenses are a difficulty because materials are opaque. Mirrors aren't much better, achieving 50% reflectivity at normal incidence. ----- I wanted to give the accelerating cavities the same wavelength as the undulator, and now I'm confident this already exists. I wanted to add a Perot-Fabry cavity around the undulator to increase the output power. This has been considered but is difficult at such a wevelength because neither mirrors nor light guides are efficient. Apparently I won't bring anything new nor useful in this topic and give it up.
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