Abstract
High precision electrostatic chucks with diameters up to 12 inches are being developed at IOF for electron/ion-beam lithography applications. For optimal performance, selection of the appropriate chuck dielectric is crucial. We have tested various materials, including sapphire, quartz and glass-ceramics with respect to chucking force under vacuum conditions. Differences in electrostatic force of more than an order of magnitude were observed and are attributed to Coulomb and Johnsen–Rahbek behaviour. For the former, reasonable agreement with theoretical calculations was obtained when taking the corresponding dielectric constants and a finite gap between wafer and support into account. Time constants for chucking and dechucking were determined for the latter.
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