Title :
Yield impact of cross-field and cross-wafer CD spatial uniformity: collapse of the deep-UV and 193 nm lithographic focus window
Author :
Monahan, Kevin ; Lord, Pat ; Ng, Waiman ; Altendorfer, Hubert ; Kren, George ; Ashkenaz, Scott
Author_Institution :
KLA-Tencor Corp., San Jose CA, USA
Abstract :
The 0.13 μm semiconductor manufacturing generation, shipping as early as 2001, will have transistor gate structures as small as 100 nm, creating a demand for sub-10 nm gate linewidth control. Linewidth variation consists of cross-chip, cross-wafer, cross-lot, and run-to-run components. In this work, we explore spatial dependencies across the lithographic field due to reticle error and across the wafer due to wafer and chuck nanotopography. Both sources of spatial variation can cause collapse of the lithographic focus window near the limits of resolution, resulting in CD excursions for gate structures in high-performance microprocessors. Our work supports the contention that photolithography-induced defects may become the primary source of yield loss for the 0.13 μm generation and beyond
Keywords :
inspection; integrated circuit yield; light interferometry; nanotechnology; optical focusing; reticles; scanning electron microscopy; spatial variables measurement; surface topography; ultraviolet lithography; 0.13 μm semiconductor manufacturing generation; 0.13 mum; 100 nm; 13 to 248 nm; 193 nm lithographic focus window collapse; CD excursions; SEM metrology; chuck nanotopography; cross-field CD spatial uniformity; cross-wafer CD spatial uniformity; cross-wafer transmission interferometry; deep-UV lithographic focus window collapse; differential interference-contrast metrology; gate linewidth control; high-performance microprocessors; macro-defect inspection; photolithography-induced defects; registration-based phase-shift focus metrology; resolution limits; reticle error; spatial dependencies; spatial variation; transistor gate structures; wafer nanotopography; yield loss; Inspection; Lenses; Metrology; Microprocessors; Nanotopography; Optical interferometry; Semiconductor device manufacture; Spatial resolution; Transistors; Ultraviolet sources;
Conference_Titel :
Semiconductor Manufacturing Conference Proceedings, 1999 IEEE International Symposium on
Conference_Location :
Santa Clara, CA
Print_ISBN :
0-7803-5403-6
DOI :
10.1109/ISSM.1999.808751
