Title :
Enhancement of BTI degradation in pMOSFETs under high-frequency bipolar gate bias
Author :
Zhu, Shiyang ; Nakajima, Anri ; Ohashi, Takuo ; Miyake, Hideharu
Author_Institution :
Res. Center for Nanodevices & Syst., Hiroshima Univ., Japan
fDate :
6/1/2005 12:00:00 AM
Abstract :
Negative bias temperature (NBT) instability of p-MOSFETs with ultrathin SiON gate dielectric has been investigated under various gate bias configurations. The NBT-induced interface trap density (ΔNit) under unipolar bias is essentially lower than that under static bias, and is almost independent of the stress frequency up to 10 MHz. On the contrary, ΔNit under bipolar pulsed bias of frequency larger than about 10 kHz is significantly enhanced and exhibits a strong frequency dependence, which has faster generation rate and smaller activation energy as compared to other stress configurations. The degradation enhancement is attributed to the energy to be contributed by the recombination of trapped electrons and free holes upon the silicon surface potential reversal from accumulation to inversion.
Keywords :
MOSFET; dielectric materials; electron traps; electron-hole recombination; interface states; silicon compounds; 10 MHz; BTI degradation enhancement; NBT-induced interface trap density; SiON; activation energy; bipolar pulsed bias; dynamic stress; frequency dependence; high-frequency bipolar gate bias; negative bias temperature instability; pMOSFET; silicon surface potential reversal; trapped electron recombination; ultrathin gate dielectric; ultrathin gate oxide; unipolar bias; Charge carrier processes; Degradation; Dielectrics; Electron traps; Frequency dependence; MOSFET circuits; Pulse generation; Spontaneous emission; Stress; Temperature; Dynamic stress; negative bias temperature instability (NBTI); pMOSFETs; recombination; ultrathin gate oxide;
Journal_Title :
Electron Device Letters, IEEE
DOI :
10.1109/LED.2005.848075
