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This paper demonstrates for the first time a low cost, low complexity process CMOS Hk/MG for low-power applications with Vth controlled by gate Ion-Implantation (I/I) and High-k capping for NMOS and PMOS, respectively. Novel advanced electrical and physical characterizations provide unique insights about the underlying mechanism of Vth adjust induced by I/I into the metal. Improved RO performance,...
We report low Vt (Vt,Lg=1μm=±0.26V) high performance CMOS devices with ultra-scaled Tinv down to Tinv~8Å using a gate-first dual Si/SiGe channel low-complexity integration approach. Compared to a dual dielectric cap gate-first integration scheme, the devices fabricated with the novel scheme show for the same high-k/metal gate stack (1) 3Å reduction in nMOS and pMOS Tinv (2) 220mV lower long channel...
We demonstrate electrically functional 0.099 μm2 6T-SRAM cells using full-field EUV lithography for contact and M1 levels. This enables formation of dense arrays without requiring any OPC/RET, while exhibiting substantial process latitudes & potential lower cost of ownership (single-patterning). Key enablers include: 1) high-k/metal gate FinFETs with Lg˜40 nm, 12-17 nm wide Fins, and cell β ratio...
In this paper, we have done a comprehensive study of the junction anneal strategy (by spike and/or laser) for advanced technology nodes with Hk/MG and high-k capping film to control the eWF. It has been shown that a low long channel Vth is easily achievable with anneal sequence optimization. In particular with the help of laser which creates more dipoles for NMOS case with La-based capping. But also...
In this paper, we report on the integration of laser-annealed junctions into a state-of-the-art high-k/metal gate process flow. After implant optimization, we achieve excellent Lg scaling of 15/30 nm over a spike reference, for nMOS and pMOS respectively, without any performance loss. This enables to fabricate transistors with Lgmin meeting the 32 nm node requirement. In addition, we highlight the...
We discuss several advancements over our previous report (S. Kubicek, 2006): - Introduction of conventional stress boosters resulting in 16% and 11% for nMOS and pMOS respectively. For the first time the compatibility of SMT (stress memorization technique) with high-kappa/metal gate is demonstrated. In addition, we developed a blanket SMT process that does not require a photo to protect the pMOS by...
Low Vt Ni fully silicided (FUSI) devices are demonstrated making use of Al implantation for pMOS and Yb or Yb+P implantation for nMOS combined with Ni-silicide phase engineering. When Yb(+P) and Al implantation are followed by a high temperature anneal, significant segregation of Yb or Al toward the Ni-FUSI/SiON interface is observed and large Vt shifts of 450 mV (330 mV) and 200 mV are obtained for...
We report record unloaded ring oscillator delay (17ps at VDD = 1.1V and 20pA/mum Ioff) using low power CMOS transistors with Ni-based fully silicided (FUSI) gates on HfSiON. This result comes from two key advancements over our previous report presented in A. Lauwers et al. (2005). First, we have improved the (unstrained) devices Idsat to be 560/245muA/mum for nMOS/pMOS at an Ioff = 20pA/mum and V...
This work presents the first comprehensive evaluation of the manufacturability and reliability of dual WF phase controlled Ni-FUSI/HfSiON CMOS (NMOS: NiSi; PMOS: Ni2Si and Ni31 Si12 evaluated) for the 45 nm node. RTP1 and poly/spacer height were identified as the most critical process control parameters in our flow. We demonstrate that a novel sacrificial SiGe cap addition to the flow (improved poly-Si/spacer...
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