Abstract :
Higher yield loss caused by Ml-bridge was found in sub 130nm logic products with multi-level copper interconnect. With the help of FIB, SEM and EDX, the organic surface particle induced during W CT-CMP was considered to result in the Ml-bridge, and then the mechanism of the Ml-bridge was analyzed. Through partition check on post CMP cleaner to reduce the organic particle contamination, it was found that Brush 2 with HF spraying and closed mechanical scrubbing directly induced the organic surface particles, so the Brush 2 was optimized to be open. In addition, combined to optimizing on Mega tank and Brush 1, the defect count was effectively reduced for W CT-CMP, and thus the yield on 130nm logic products were verified to be improved greatly
Keywords :
X-ray chemical analysis; chemical mechanical polishing; copper; focused ion beam technology; integrated circuit interconnections; scanning electron microscopy; surface cleaning; EDX; FIB; SEM; chemical mechanical polishing; clean post-CMP; copper interconnect; metal 1 bridging; tungsten plug; yield improvement; Brushes; Copper; Etching; Failure analysis; Logic; Microelectronics; Plugs; Surface cleaning; Surface contamination; Tungsten;
