Enhanced thermally induced stress effect on an ultrathin gate oxide

Su, Jiann-Liang; Hong, Chao‐Chi; Hwu, Jenn–Gwo

doi:10.1063/1.1452763

Cited by 8 publications

(4 citation statements)

References 14 publications

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“…In fact, the interface states and the bulk traps determine the level and slope of J-V curve in the inversion region, respectively. For the current saturation mechanism of thermal SiO , Si atom on the surface of the wafer was consumed to grow SiO while the saturation current level increases with oxide thickness under 30 regime [27]. But for the Al O gate dielectrics, the oxidation of the "as-deposited" Al film consumes sparse Si atoms and therefore produces thinner SiO and fewer bulk traps.…”

Section: Resultsmentioning

confidence: 99%

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Electrical characterization and process control of cost-effective high-k aluminum oxide gate dielectrics prepared by anodization followed by furnace annealing

Huang

Hwu

2003

IEEE Trans. Electron Devices

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Section: Resultsmentioning

confidence: 99%

“…For an anodization time longer than 5.0 minutes, excessive anodization may consume more Si atoms to grow thicker SiO . Consequently, more traps at the SiO Si-substrate interface will be created [27] and the C is therefore increased with the anodization time. The turn around points with the lowest EOT, , and C in Fig.…”

Section: Resultsmentioning

confidence: 99%

Electrical characterization and process control of cost-effective high-k aluminum oxide gate dielectrics prepared by anodization followed by furnace annealing

Huang

Hwu

2003

IEEE Trans. Electron Devices

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“…The same is observed for W-gated capacitors, but only for the thinnest layers (figure 5(c)). This phenomenon may be associated with film/substrate stress [29]. If there is external tensile stress on the Si substrate, then the Si band gap is enlarged which reduces the intrinsic carrier concentration and leads to lower leakage current.…”

Section: Current-voltage Characteristics and Mechanisms Of Conductivitymentioning

confidence: 99%

Microwave irradiation impact on Ta₂O₅stack capacitors with different gates

Atanassova

Mitin

Конакова

et al. 2008

Semicond. Sci. Technol.

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The effect of microwave radiation at room temperature on the characteristics of Ta 2 O 5 (7-25 nm)-based capacitors with various gates (Al, W, TiN) has been investigated. The variation of the parameters upon treatment is a function of the initial properties of the devices. The permittivity of the stacks slightly increases, and both oxide charges and interface states density decrease after ∼5-10 s of irradiation. The parameter, however, that is definitely sensitive to the exposure is the leakage current-a current reduction, up to ∼2 orders of magnitude-and an improvement of the breakdown fields has been found for irradiated samples. The process is not accompanied either by additional oxidation of Si or by crystallization effects in the films. The current improvement is addressed to the annealing of gate-deposition-induced defects and defects due to reactions at the gate/Ta 2 O 5 interface rather than to annealing of poor-oxidation-related defects. The radiation-induced change of the mechanisms governing the conductivity in the stacks is discussed in terms of partial annealing of pre-existing electron traps. An Auger electron spectroscopy detectable variation in the composition of the films has not been observed within exposure times for which a change of the electrical characteristics has been established. Considering that the combination of metal gates with high-k layers is the solution for the further scaling of top-down microelectronic devices, short-time microwave radiation appears to be a promising way for leakage current reduction in Ta 2 O 5 stacks with metal gates, to a level adequate for the storage capacitor application.

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“…However, a thicker oxide consumes a larger volume of Si, which may contribute to higher interface and bulk trap densities, increasing J sub . 18 So the trap-related effect dominates the J sub behavior of devices for different oxide thicknesses. Figure 2 shows the dependencies of J sub and the extracted gate capacitance (C ext ) of the devices on the thick and thin wafers.…”

mentioning

confidence: 99%

Thickness-dependent stress effect in p-type metal–oxide–semiconductor structure investigated by substrate injection current

Hong

Liao

Hwu

2003

Applied Physics Letters

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The effects of oxide, Si wafer, and gate Al thicknesses on the substrate injection currents (J sub) of p-type metal-oxide-semiconductor structures with ultrathin oxides are studied. J sub is reported to be both trap-related ͑interface and Si bulk͒ and Si band gap-related ͑intrinsic carrier concentration͒. Both mechanisms have given rise to the stress near the Si/SiO 2 interface. Current-voltage and capacitance-voltage characterizations reveal that J sub increases with oxide thickness, which is suggested to be dominated by the trap-related mechanism. A stronger dependence of J sub on a change in oxide thickness is observed for a thicker Si wafer, which is proposed to be mainly caused by the band gap-related mechanism. Furthermore, a thicker gate Al introduces a higher J sub , which is proposed to be due to both the trap-related and the band gap-related mechanisms.

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Enhanced thermally induced stress effect on an ultrathin gate oxide

Cited by 8 publications

References 14 publications

Electrical characterization and process control of cost-effective high-k aluminum oxide gate dielectrics prepared by anodization followed by furnace annealing

Electrical characterization and process control of cost-effective high-k aluminum oxide gate dielectrics prepared by anodization followed by furnace annealing

Microwave irradiation impact on Ta₂O₅stack capacitors with different gates

Thickness-dependent stress effect in p-type metal–oxide–semiconductor structure investigated by substrate injection current

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Enhanced thermally induced stress effect on an ultrathin gate oxide

Cited by 8 publications

References 14 publications

Electrical characterization and process control of cost-effective high-k aluminum oxide gate dielectrics prepared by anodization followed by furnace annealing

Electrical characterization and process control of cost-effective high-k aluminum oxide gate dielectrics prepared by anodization followed by furnace annealing

Microwave irradiation impact on Ta2O5stack capacitors with different gates

Thickness-dependent stress effect in p-type metal–oxide–semiconductor structure investigated by substrate injection current

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Microwave irradiation impact on Ta₂O₅stack capacitors with different gates