The MOSFET gate currents of high k gate dielectrics due to direct tunneling are investigated by using a new direct tunneling current model developed.The model includes both the inversion layer quantization effect with...The MOSFET gate currents of high k gate dielectrics due to direct tunneling are investigated by using a new direct tunneling current model developed.The model includes both the inversion layer quantization effect with finite barrier height and the polysilicon depletion effect.The impacts of dielectric constant and conduction band offset as well as the band gap on the gate current are discussed.The results indicate that the gate dielectric materials with higher dielectric constant,larger conduction band offset and the larger band gap are necessary to reduce the gate current.The calculated results can be used as a guide to select the appropriate high k gate dielectric materials for MOSFETs.展开更多
We study a series of(HfO2)x(Al2O3)1-x /4H-SiC MOS capacitors. It is shown that the conduction band offset of HfO2 is 0.5 e V and the conduction band offset of Hf AlO is 1.11–1.72 e V. The conduction band offsets...We study a series of(HfO2)x(Al2O3)1-x /4H-SiC MOS capacitors. It is shown that the conduction band offset of HfO2 is 0.5 e V and the conduction band offset of Hf AlO is 1.11–1.72 e V. The conduction band offsets of(Hf O2)x(Al2O3)1-x are increased with the increase of the Al composition, and the(HfO2)x(Al2O3)1-x offer acceptable barrier heights(〉 1 e V)for both electrons and holes. With a higher conduction band offset,(Hf O2)x(Al2O3)1-x/4H-SiC MOS capacitors result in a ~ 3 orders of magnitude lower gate leakage current at an effective electric field of 15 MV/cm and roughly the same effective breakdown field of ~ 25 MV/cm compared to HfO2. Considering the tradeoff among the band gap, the band offset, and the dielectric constant, we conclude that the optimum Al2O3 concentration is about 30% for an alternative gate dielectric in 4H-Si C power MOS-based transistors.展开更多
According to the international technology roadmap for semiconductors (ITRS),32nm technology node will be introduced around 2009. Scaling of CMOS logic devices from 45 to 32nm node has come across significant barrier...According to the international technology roadmap for semiconductors (ITRS),32nm technology node will be introduced around 2009. Scaling of CMOS logic devices from 45 to 32nm node has come across significant barriers. Overcoming these pitch-scaling induced barriers requires integrating the most advanced process technologies into product manufacturing. This paper reviews and discusses new technology applications that could be potentially integrated into 32nm node in the following areas:extension of immersion lithography,mobility enhancement substrate technology,metal/ high-k (MHK) gate stack, ultra-shallow junction (USJ) and other strain enhancement engineering methods, including stress proximity effect (SPT), dual stress liner (DSL), stress memorization technique (SMT), high aspect ratio process (HARP) for STI and PMD,embedded SiGe (for pFET) and SiC (for nFET) source/drain (S/D) using selective epitaxial growth (SEG) method,metallization for middle of line (MOL) and back-end of line (BEOL) ,and ultra low-k (ULK) integration.展开更多
文摘The MOSFET gate currents of high k gate dielectrics due to direct tunneling are investigated by using a new direct tunneling current model developed.The model includes both the inversion layer quantization effect with finite barrier height and the polysilicon depletion effect.The impacts of dielectric constant and conduction band offset as well as the band gap on the gate current are discussed.The results indicate that the gate dielectric materials with higher dielectric constant,larger conduction band offset and the larger band gap are necessary to reduce the gate current.The calculated results can be used as a guide to select the appropriate high k gate dielectric materials for MOSFETs.
基金supported by the National Natural Science Foundation of China(Grant Nos.51272202 and 61234006)the Science Project of State Grid,China(Grant No.SGRI-WD-71-14-004)
文摘We study a series of(HfO2)x(Al2O3)1-x /4H-SiC MOS capacitors. It is shown that the conduction band offset of HfO2 is 0.5 e V and the conduction band offset of Hf AlO is 1.11–1.72 e V. The conduction band offsets of(Hf O2)x(Al2O3)1-x are increased with the increase of the Al composition, and the(HfO2)x(Al2O3)1-x offer acceptable barrier heights(〉 1 e V)for both electrons and holes. With a higher conduction band offset,(Hf O2)x(Al2O3)1-x/4H-SiC MOS capacitors result in a ~ 3 orders of magnitude lower gate leakage current at an effective electric field of 15 MV/cm and roughly the same effective breakdown field of ~ 25 MV/cm compared to HfO2. Considering the tradeoff among the band gap, the band offset, and the dielectric constant, we conclude that the optimum Al2O3 concentration is about 30% for an alternative gate dielectric in 4H-Si C power MOS-based transistors.
文摘According to the international technology roadmap for semiconductors (ITRS),32nm technology node will be introduced around 2009. Scaling of CMOS logic devices from 45 to 32nm node has come across significant barriers. Overcoming these pitch-scaling induced barriers requires integrating the most advanced process technologies into product manufacturing. This paper reviews and discusses new technology applications that could be potentially integrated into 32nm node in the following areas:extension of immersion lithography,mobility enhancement substrate technology,metal/ high-k (MHK) gate stack, ultra-shallow junction (USJ) and other strain enhancement engineering methods, including stress proximity effect (SPT), dual stress liner (DSL), stress memorization technique (SMT), high aspect ratio process (HARP) for STI and PMD,embedded SiGe (for pFET) and SiC (for nFET) source/drain (S/D) using selective epitaxial growth (SEG) method,metallization for middle of line (MOL) and back-end of line (BEOL) ,and ultra low-k (ULK) integration.
