Characterization and Physical Origin of Fast Vth Transient in NBTI of pMOSFETs with SiON Dielectric

“…1) clearly suggest presence or absence of large hole trapping (ΔV h ) component in N-related traps [4], [11], particularly at early stress time. As ΔV h saturates fast and has weaker T activation [3]- [5], [11], [12], it causes lower n ( Fig. 2) and E A (Fig.…”

“…UF-OTF can be used to determine degradation from very short (approximately microseconds) to long stress time, although it requires postprocessing to convert I DLIN degradation to V T shift as discussed in [12]. However, while NBTI in SiON p-MOSFETs has been studied using UF-SMS or UF-OTF techniques [4], [11], [13], to the best of our knowledge, most studies of NBTI in high-k p-MOSFETs [5]- [8] were done using conventional SMS and calls for a reevaluation by UF methods, particularly to probe the degradation at early stress time and to have recovery-artifact-free degradation at longer stress time.…”

“…It is now well known that defects generated during NBT stress recovers after stress is removed, and conventional stress-measure-stress (SMS) methods suffer from recovery-related artifacts that result in incorrect degradation magnitude, time, and temperature (T ) dependence of NBTI [9], [10]. To overcome this issue, ultrafast (UF) SMS [11] and UF on-the-fly (UF-OTF) I DLIN [4] techniques were developed. UF-SMS provides direct estimation of V T shift, although it cannot be used to measure degradation at very short stress time.…”

A Comparative NBTI Study of $\hbox{HfO}_{2}$, $\hbox{HfSiO}_{x}$, and SiON p-MOSFETs Using UF-OTF $I_{\rm DLIN}$ Technique

“…1) clearly suggest presence or absence of large hole trapping (ΔV h ) component in N-related traps [4], [11], particularly at early stress time. As ΔV h saturates fast and has weaker T activation [3]- [5], [11], [12], it causes lower n ( Fig. 2) and E A (Fig.…”

“…UF-OTF can be used to determine degradation from very short (approximately microseconds) to long stress time, although it requires postprocessing to convert I DLIN degradation to V T shift as discussed in [12]. However, while NBTI in SiON p-MOSFETs has been studied using UF-SMS or UF-OTF techniques [4], [11], [13], to the best of our knowledge, most studies of NBTI in high-k p-MOSFETs [5]- [8] were done using conventional SMS and calls for a reevaluation by UF methods, particularly to probe the degradation at early stress time and to have recovery-artifact-free degradation at longer stress time.…”

“…It is now well known that defects generated during NBT stress recovers after stress is removed, and conventional stress-measure-stress (SMS) methods suffer from recovery-related artifacts that result in incorrect degradation magnitude, time, and temperature (T ) dependence of NBTI [9], [10]. To overcome this issue, ultrafast (UF) SMS [11] and UF on-the-fly (UF-OTF) I DLIN [4] techniques were developed. UF-SMS provides direct estimation of V T shift, although it cannot be used to measure degradation at very short stress time.…”

A Comparative NBTI Study of $\hbox{HfO}_{2}$, $\hbox{HfSiO}_{x}$, and SiON p-MOSFETs Using UF-OTF $I_{\rm DLIN}$ Technique

“…This is due to the introduction of surface channel p-MOSFETs for analog circuits and the scaling of gate oxides below 2 nm for digital circuits, without proportionate scaling of supply voltages. In particular, the incorporation of nitrogen in sub-2-nm gate oxides (to prevent boron penetration and reduce gate leakage) has presently made NBTI the most crucial reliability concern [10]- [27].…”

Defect Generation in p-MOSFETs Under Negative-Bias Stress: An Experimental Perspective

“…During the recovery phase a positive electric field is placed accross the oxide layer. The field removes the inverted channel and hydrogen is free to reconnect with the available silicon by annealing [6,7,8,9,10]. This process, much like stressing, can be exacerbated by increased temperature.…”

A Multi-Level Approach to NBTI Mitigation in Processors