1997
DOI: 10.1109/55.568770
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Impact of boron penetration at P/sup +/-poly/gate oxide interface on deep-submicron device reliability for dual-gate CMOS technologies

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Cited by 19 publications
(6 citation statements)
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“…[3][4][5][6] Direct metal gate may be a choice to overcome the gate depletion and boron penetration problems; however, it is at incipient development stage and needs much more study to be applied. 7,8 Because of this, poly-Si 1 Ϫ x Ge x has been proposed as an alternative gate electrode material. 9,10 Incorporation of Ge to Si modifies work function, so poly-SiGe can be a mid bandgap material when Ge content is high enough ͑ϳ60%͒.…”
mentioning
confidence: 99%
“…[3][4][5][6] Direct metal gate may be a choice to overcome the gate depletion and boron penetration problems; however, it is at incipient development stage and needs much more study to be applied. 7,8 Because of this, poly-Si 1 Ϫ x Ge x has been proposed as an alternative gate electrode material. 9,10 Incorporation of Ge to Si modifies work function, so poly-SiGe can be a mid bandgap material when Ge content is high enough ͑ϳ60%͒.…”
mentioning
confidence: 99%
“…However, at this temperature, boron doped to gate for the surface PMOS can penetrate to the n-well via the gate oxide and thus reduce the threshold voltage of the PMOS. 9 To avoid this problem, we developed an oxidation recipe at 710°C, as mentioned earlier. Figure 3 shows the variation of the threshold voltage of the NMOS and PMOS as a function of gate length at a constant channel width of 10 m. As shown, no short channel effect is observed at the gate length of 0.18 m.…”
Section: Resultsmentioning
confidence: 99%
“…As the size of the complementary metal oxide semiconductor ͑CMOS͒ device scales down, conventionally used polycide or salicide gate stack with poly Si films show serious issues of gate depletion effect, boron penetration, and additional effects. [1][2][3] The gate depletion effect causes an increase in total effective oxide thickness, which reduces the inversion capacitance and results in current degradation and boron penetration across the gate oxide leads to threshold voltage instability. 4,5 In addition, while the gate oxide must be scaled as well to control the short channel effect, gate depletion effect and boron penetration are accelerated by the thinner the gate oxide.…”
mentioning
confidence: 99%