Title :
Time-dependent breakdown of ultra-thin SiO2 gate dielectrics under pulsed biased stress
Author :
Bin Wang ; Suehle, John S. ; Vogel, Eric M. ; Bernstein, Joseph B.
Author_Institution :
Centre for Reliability Eng., Maryland Univ., College Park, MD, USA
fDate :
5/1/2001 12:00:00 AM
Abstract :
Ultra-thin SiO/sub 2/ films (t/sub ox//spl sim/2.0 nm) were stressed under DC, unipolar, and bipolar pulsed bias conditions up to a pulse repetition frequency of 50 kHz. The time-to-breakdown (t/sub BD/), the number of defects at breakdown (N/sub BD/), and the number of defects generated inside the oxide as a function of stress time were monitored during each stress condition. Oxide lifetime under unipolar pulsed bias is similar to that under DC conditions; however lifetime under bipolar pulsed bias is significantly improved and exhibits a dependence on pulse repetition frequency. The observation of a lifetime increase under bipolar pulsed bias for the oxide thickness and voltage range used in this study suggests that a different physical mechanism may be responsible for the lifetime increase from that assumed in earlier studies for thicker films.
Keywords :
MOSFET; dielectric thin films; failure analysis; semiconductor device breakdown; semiconductor device reliability; semiconductor-insulator boundaries; silicon compounds; 2 nm; 50 kHz; DC conditions; SiO/sub 2/; bipolar pulsed bias conditions; defects; n-MOSFET; n-channel MOSFETs; oxide lifetime; oxide thickness; physical mechanism; pulse repetition frequency; pulsed biased stress; time-dependent breakdown; time-to-breakdown; ultra-thin SiO/sub 2/ gate dielectrics; unipolar pulsed bias conditions; voltage range; Dielectric breakdown; Dielectric substrates; Electric breakdown; Electrodes; Frequency; MOSFETs; NIST; Stress; Testing; Voltage;
Journal_Title :
Electron Device Letters, IEEE
