Title :
Voltage dependence of hard breakdown growth and the reliability implication in thin dielectrics
Author :
Linder, Barry P. ; Lombardo, Salvatore ; Stathis, James H. ; Vayshenker, Alex ; Frank, David J.
Author_Institution :
IBM T. J. Watson Res. Center, Yorktown Heights, NY, USA
Abstract :
Hard breakdown (HBD) is shown to be a gradual process with the gate current increasing at a predictable rate exponentially dependent on the instantaneous stress voltage and oxide thickness. This is contrary to conventional wisdom that maintains that HBD is a fast thermally driven process. The HBD degradation rate (DR) for a 15 /spl Aring/ oxide scales from >1 mA/s at 4 V to <1 nA/s at 2 V, extrapolating to <10 fA/s at use voltage. Adding the HBD evolution time to the standard time-to-breakdown potentially reduces the projected fail rate of gate dielectrics by orders of magnitude.
Keywords :
dielectric thin films; semiconductor device breakdown; semiconductor device reliability; semiconductor-insulator boundaries; 15 A; 2 to 4 V; HBD degradation rate; dielectric breakdown; dielectric measurements; gate current; gate dielectric failure rate; hard breakdown growth; instantaneous stress voltage; oxide thickness; projected fail rate; semiconductor device reliability; semiconductor-insulator interfaces; time-to-breakdown; voltage dependence; Boosting; Breakdown voltage; Circuits; Dielectric breakdown; Dielectric measurements; Electric breakdown; Semiconductor device reliability; Semiconductor-insulator interfaces; Thermal degradation; Thermal stresses;
Journal_Title :
Electron Device Letters, IEEE
DOI :
10.1109/LED.2002.805010
