Channel Length Dependence of PBTI in High-k First RMG Gate Stack Integration Scheme

Comparative assessment of graded channel gate stack (GCGS) DG MOSFET structure is done by using two-dimensional (2D) Sentrausu TCAD simulator for different high K oxide thickness. This novel device includes gate stack (GS) engineering (high K) and nonuniformly channel engineering (GC) to suppress the short channel effects and improve the device performance. This novel device can be a better alternative for the future high speed switching and low power circuit applications. It has the advantage of improved breakdown voltage, reduced leakage current, low output conductance and reduced bipolar parasitic effects. The given device must be properly investigated with respect to the variation of different high K oxide thickness on different parameters such as drain induced barrier lowering (DIBL), subthreshold slope (SS), [Formula: see text]/[Formula: see text], [Formula: see text] roll off before fabrication to have better reliability. The 2D Sentrausu TCAD simulator using drift-diffusion model was used to simulate the developed structure and good agreement is obtained with respect to already published result in the sub-threshold regime. The result indicates that there is a need to be optimize the DC parameters for specific circuit applications.

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Plasma surface interactions in nanoscale processing: Preservation of low-k integrity and high-k gate-stack etching with Si selectivity

10.31274/etd-180810-312 ◽

2012 ◽

Author(s):

Juline Shoeb

Keyword(s):

Surface Interactions ◽

Gate Stack ◽

Plasma Surface ◽

Plasma Surface Interactions ◽

High K ◽

Low K

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Channel-length dependence of particle diffusivity in confinement

Soft Matter ◽

10.1039/d1sm00289a ◽

2021 ◽

Author(s):

Soichiro Tottori ◽

Karolis Misiunas ◽

Vahe Tshitoyan ◽

Ulrich Keyser

Keyword(s):

Channel Length ◽

Fundamental Importance ◽

Large Molecules ◽

Diffusive Behavior ◽

Channel Proteins ◽

Length Dependence

Understanding the diffusive behavior of particles and large molecules in channels is of fundamental importance in biological and synthetic systems, such as channel proteins, nanopores, and nanofluidics. Although theoretical and...

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Impact of HfO2 buffer layer on the electrical characteristics of ferroelectric/high-k gate stack for nonvolatile memory applications

Applied Physics A ◽

10.1007/s00339-020-03632-0 ◽

2020 ◽

Vol 126 (6) ◽

Cited By ~ 1

Author(s):

Rajesh Kumar Jha ◽

Prashant Singh ◽

Upendra Kashniyal ◽

Manish Goswami ◽

B. R. Singh

Keyword(s):

Buffer Layer ◽

Nonvolatile Memory ◽

Electrical Characteristics ◽

Gate Stack ◽

High K ◽

Memory Applications

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Reliability of Metal Gate / High-k devices and its impact on CMOS technology scaling

MRS Advances ◽

10.1557/adv.2017.504 ◽

2017 ◽

Vol 2 (52) ◽

pp. 2973-2982 ◽

Cited By ~ 2

Author(s):

Andreas Kerber

Keyword(s):

Dielectric Breakdown ◽

Cmos Technology ◽

Gate Stack ◽

Leakage Currents ◽

Technology Scaling ◽

Device Scaling ◽

Novel Device ◽

Time Dependent Dielectric Breakdown ◽

Bias Temperature Instability ◽

High K

ABSTRACTMG/HK was introduced into CMOS technology and enabled scaling beyond the 45/32nm technology node. The change in gate stack from poly-Si/SiON to MG/HK introduced new reliability challenges like the positive bias temperature instability (PBTI) and stress induced leakage currents (SILC) in nFET devices which prompted thorough investigation to provide fundamental understanding of these degradation mechanisms and are nowadays well understood. The shift to a dual-layer gate stack also had a profound impact on the time dependent dielectric breakdown (TDDB) introducing a strong polarity dependence in the model parameter. As device scaling continues, stochastic modeling of variability, both at time zero and post stress due to BTI, becomes critical especially for SRAM circuit aging. As we migrate towards novel device architectures like bulk FinFET, SOI FinFETs, FDSOI and gate-all-around devices, impact of self-heating needs to be accounted for in reliability testing.In this paper we summarize the fundamentals of MG/HK reliability and discuss the reliability and characterization challenges related to the scaling of future CMOS technologies.

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