A 32 nm BEOL with PVD CuMn seedlayer and conventional PVD-TaN/Ta liner was fully characterized by fundamental, integrated, and reliability methods. CuMn was confirmed to have fundamental advantages over CuAl, such as higher electromigration (EM) reliability for the same Cu line resistance (R). Both low R and high reliability (EM, SM, and TDDB) were achieved. Improved extendibility of CuMn relative to CuAl was also supported by studies of alloy interactions with advanced liner materials Ru and Co, and by enhancement of ultra-thin TaN barrier performance.
During technology development, the study of ultra low-k (ULK) TDDB is important for assuring robust reliability. As the technology advances, several critical ULK TDDB issues were faced for the first time and needed to be addressed. First, the increase of ULK leakage current noise level induced by soft breakdown during stress was observed. Second, it was found that ULK had lower field acceleration than dense low-k. Such process and material dependences of ULK TDDB kinetics were investigated, and an optimal process to improve ULK voltage acceleration was identified. Last, as the reliability margin for ULK TDDB of via-related structures is greatly reduced at advanced CMOS technologies, a systematic study of via TDDB regarding area scaling and test structure design was conducted. It was found that only a portion of the total vias possibly determines the low-k via TDDB. A new "fatal" via ratio concept is introduced to replace the as-designed area ratio for TDDB area scaling in structures with vias, and a methodology called shift and compare (S&C) is proposed to determine the "fatal" via ratio.Keywords -time-dependent dielectric breakdown, low-k soft breakdown, Cu interconnect, low-k hard breakdown, reliability, Schottky emission, Poole-Frenkel, low-k TDDB voltage acceleration, low-k via TDDB, I-V conduction slope
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.