Abstract
We examine the process margins of chemically amplified ArF resists designed for the single layer process. We measured the dissolution characteristics and investigated how the dissolution contrast affected the lithographic performance. We confirmed that high dissolution contrast can improve both the resolution and process margin. A 0.13 micrometers line and space pattern can be obtained. However, the depth of focus is not good enough for device fabrication. To achieve an acceptable process margin, we applied resolution enhancement techniques to the high-contrast resist. Applying off-axis illumination and an attenuated phase-shifting mask can greatly improve the process margin. 1.2 micrometers and 0.8 micrometers defocus margins were obtained at 0.15 and 0.13 micrometers line and space patterns, respectively.
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