Impact of boron penetration at P+-poly/gate oxideinterface on deep-submicron device reliability for dual-gate CMOStechnologies

In this paper, we investigate the onset of boron penetration at the P⁺-poly/gate oxide interface. It is found that conventional detection methods such as shifts in flatband voltage or threshold voltage (V_t) and charge-to-breakdown (Q_BD) performance in accumulation mode failed to reveal boron species near this interface. On the contrary, under constant current stressing with inversion mode bias conditions, significantly lower Q_BD and large V_t shift have been observed due to boron penetration near the P⁺-poly/gate oxide interface. These results suggest that onset of boron penetration at the P⁺ -poly/gate oxide interface does not alter fresh device characteristics, but it induces severe reliability degradation for the gate oxide. Tradeoffs of boron penetration and poly depletion are also studied in this work with different combinations of polysilicon thickness, BF₂ implant energy and dose, and the post-implant RTA temperature