Title :
Bimodal Dielectric Breakdown Failure Mechanisms in Cu–SiOC Low- k Interconnect System
Author :
Tan, Tam Lyn ; Hwang, Nam ; Gan, Chee Lip
Author_Institution :
Nanyang Technol. Univ., Nanyang
fDate :
6/1/2007 12:00:00 AM
Abstract :
The obtained bimodal VBD failure distribution for Cu/SiOC low-k dielectric is attributed to the two main failure mechanisms that are distinguished by their current-voltage curves and physical failure modes. Type 1 failures show an abrupt increase in leakage current, i.e., an electrical short, without any apparent physical damage. Extrinsic factors such as shorted Cu lines and particle contamination that is already present in between metal lines are believed to be the cause of failure, and this is supported by the temperature independence. On the other hand, Type 2 failure mode follows an intrinsic breakdown mechanism due to its high VBD, temperature dependence of VBD, and visible burn marks, indicating thermal breakdown of the dielectrics in the interconnect system.
Keywords :
copper; electric breakdown; integrated circuit interconnections; integrated circuit reliability; leakage currents; low-k dielectric thin films; silicon compounds; Cu-SiOC; bimodal dielectric breakdown failure distribution; current-voltage curves; electrical short; interconnect system; leakage current; particle contamination; physical failure mode; thermal breakdown; Copper; Dielectric breakdown; Failure analysis; Integrated circuit interconnections; Leakage current; Optical microscopy; Scanning electron microscopy; Space technology; Temperature; Testing; Carbon-doped silicon dioxide (SiOC); dielectric breakdown; extrinsic breakdown; intrinsic breakdown; leakage characteristics;
Journal_Title :
Device and Materials Reliability, IEEE Transactions on
DOI :
10.1109/TDMR.2007.901074
