T. Kauerauf scite author profile

The magnitude of the V T instability in conventional MOSFETs and MOS capacitors with SiO 2 /HfO 2 dual-layer gate dielectrics is shown to depend strongly on the details of the measurement sequence used. By applying time-resolved measurements (capacitance-time traces and charge-pumping measurements), it is demonstrated that this behavior is caused by the fast charging and discharging of preexisting defects near the SiO 2 /HfO 2 interface and in the bulk of the HfO 2 layer. Based on these results, a simple defect model is proposed that can explain the complex behavior of the V T instability in terms of structural defects as follows. 1) A defect band in the HfO 2 layer is located in energy above the Si conduction band edge. 2) The defect band shifts rapidly in energy with respect to the Fermi level in the Si substrate as the gate bias is varied. 3) The rapid energy shifts allows for efficient charging and discharging of the defects near the SiO 2 /HfO 2 interface by tunneling.

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A comprehensive reliability investigation of the voltage-, temperature- and device geometry-dependence of the gate degradation on state-of-the-art GaN-on-Si HEMTs

Marcon

Kauerauf

Medjdoub

et al. 2010

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Suitability of high-k gate oxides for III–V devices: A PBTI study in In<inf>0.53</inf>Ga<inf>0.47</inf>As devices with Al<inf>2</inf>O<inf>3</inf>

Franco

Alian

Kaczer

et al. 2014

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We present a comprehensive study of Positive Bias Temperature Instability (PBTI) in In 0.53 Ga 0.47 As devices with Al 2 O 3 gate oxide, and with varying thickness of the channel quantum well. We show significant instability of the device electrical parameters induced by electron trapping into a wide distribution of defects in the high-k layer, with energy levels just above the InGaAs conduction band. A significant PBTI dependence on the channel thickness is found and ascribed to quantization effects. We argue that, in order to be relevant for production, the superior transport properties of III-V channels will need to be demonstrated with more stable high-k gate stacks.

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Channel Hot Carrier Degradation Mechanism in Long/Short Channel $n$-FinFETs

Cho

Roussel

Kaczer

et al. 2013

IEEE Trans. Electron Devices

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Low Weibull slope of breakdown distributions in high-k layers

Kauerauf

Degraeve

Cartier

et al. 2002

IEEE Electron Device Lett.

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T. Kauerauf

Origin of the threshold voltage instability in SiO₂/HfO₂ dual layer gate dielectrics

A comprehensive reliability investigation of the voltage-, temperature- and device geometry-dependence of the gate degradation on state-of-the-art GaN-on-Si HEMTs

Suitability of high-k gate oxides for III–V devices: A PBTI study in In<inf>0.53</inf>Ga<inf>0.47</inf>As devices with Al<inf>2</inf>O<inf>3</inf>

Channel Hot Carrier Degradation Mechanism in Long/Short Channel $n$-FinFETs

Low Weibull slope of breakdown distributions in high-k layers

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T. Kauerauf

Origin of the threshold voltage instability in SiO2/HfO2 dual layer gate dielectrics

A comprehensive reliability investigation of the voltage-, temperature- and device geometry-dependence of the gate degradation on state-of-the-art GaN-on-Si HEMTs

Suitability of high-k gate oxides for III&#x2013;V devices: A PBTI study in In<inf>0.53</inf>Ga<inf>0.47</inf>As devices with Al<inf>2</inf>O<inf>3</inf>

Channel Hot Carrier Degradation Mechanism in Long/Short Channel $n$-FinFETs

Low Weibull slope of breakdown distributions in high-k layers

Contact Info

Product

Resources

About

Origin of the threshold voltage instability in SiO₂/HfO₂ dual layer gate dielectrics

Suitability of high-k gate oxides for III–V devices: A PBTI study in In<inf>0.53</inf>Ga<inf>0.47</inf>As devices with Al<inf>2</inf>O<inf>3</inf>