Abstract: The design and fabrication of phase shifting masks using multi-layer films are summarized. Mask blanks consist of fused silica substrates coated with a top chrome layer, an SiO$-2$/ phase layer, and an etch-stop layer. The layer thicknesses are designed to give a $pi@-phase shift at 248 nm (or at 365 nm), and equal and maximal transmission at etched and non-etched regions. The chrome layer is patterned by e-beam resist and is etched by reactive ion etching (RIE) with Cl$-2$/ chemistry. The SiO$-2$/ layer is patterned by another e-beam resist in registration with first chrome pattern and is etched by RIE with CHF$-3$/ chemistry. Two materials were investigated as the etch stop layer, namely Al$-2$/O$-3$/ and HfO$-2$/, with the latter having advantageous properties. It is shown that a 20% processing window is achieved in this type of PSM for a 5 degree phase accuracy as in contrast to quartz etched PSM in which the etched depth and uniformity has to be controlled to within 2.5% for a similar phase accuracy. !12
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