Title :
Investigation of intrinsic dielectric breakdown mechanism in Cu/low-κ interconnect system
Author :
Hwang, Nam ; Tan, Tam Lyn ; Cheng, Cheng Kuo ; Du, Anyan ; Gan, Chee Lip ; Pey, Kin Leong
Author_Institution :
Inst. of Microelectron., Singapore
fDate :
4/1/2006 12:00:00 AM
Abstract :
Using a specifically designed test structure applying human body model electrostatic discharge (ESD) stress, the origin of dielectric breakdown in Cu/low-κ interconnect systems was found to be in interfacial delamination. The interfacial delamination between a SiC capping layer and a SiOC interdielectric layer is responsible for the increase of intermetal dielectric leakage current, causing high current Joule heating as well as catastrophic thermal breakdown. Also, the defect density increased as the delamination becomes wider while the number of ESD zaps increases.
Keywords :
copper; delamination; dielectric materials; electric breakdown; electrostatic discharge; integrated circuit interconnections; leakage currents; low-k dielectric thin films; silicon compounds; Cu; Joule heating; SiC; SiOC; capping layers; defect density; dielectric breakdown mechanism; electrostatic discharge; interdielectric layers; interfacial delamination; intermetal dielectric leakage current; low-k interconnect system; thermal breakdown; Biological system modeling; Delamination; Dielectric breakdown; Electrostatic discharge; Heating; Humans; Leakage current; Silicon carbide; Stress; System testing; Delamination; dielectric breakdown; interconnect; leakage current;
Journal_Title :
Electron Device Letters, IEEE
DOI :
10.1109/LED.2006.871541
