Optimizing ULK film properties to enable BEOL integration with TDDB reliability
2015 IEEE International Interconnect Technology Conference and 2015 IEEE Materials for Advanced Metallization Conference (IITC/MAM)(2015)
摘要
Increasing circuit density in multilevel back-end-of line (BEOL) interconnects is necessary to improve integrated circuit performance and area scaling. Ultra low-k (ULK) dielectrics are used to minimize capacitance for lower power consumption and better capacitance-resistance (RC) performance. However, these materials pose integration and reliability challenges, which have limited our ability to scale the dielectric constant lower.
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Minimizing porosity, maximizing carbon content, and altering how carbon is bonded in porous SiCOH films reduces plasma-induced damage (PID) to the ULK and improves TDDB reliability, but these improvement must be balanced by maintaining other film properties such as elastic modulus. This paper describes one technique to achieve this combination of high carbon content and low porosity to allow k scaling while meeting integration and reliability requirements.
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关键词
ULK film properties,BEOL integration,TDDB reliability,circuit density,multilevel back-end-of line interconnects,BEOL interconnects,ultra low-k dielectrics,power consumption,capacitance-resistance performance,materials pose integration,dielectric constant,carbon content,porous SiCOH films,plasma-induced damage,PID,elastic modulus,low porosity,SiCOH
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