Haihong Wang | Researchain

Archive Network Publication Hotspot Collaboration

Network

Latest external collaboration on country level. Dive into details by clicking on the dots.

Explore More

Hotspot

Dive into the research topics where Haihong Wang is active.

Explore More

Publication

Featured researches published by Haihong Wang.

IEEE Electron Device Letters | 2003

Scalability of strained-Si nMOSFETs down to 25 nm gate length

Jung-Suk Goo; Qi Xiang; Yayoi Takamura; Haihong Wang; James Pan; Farzad Arasnia; Eric N. Paton; Paul R. Besser; Maxim V. Sidorov; Ercan Adem; Anthony J. Lochtefeld; G. Braithwaite; Matthew T. Currie; Richard Hammond; Mayank T. Bulsara; Ming-Ren Lin

Strained-Si nMOSFETs with a standard polysilicon gate process were fabricated down to 25 nm gate length with well-behaved characteristics and small difference in short channel effects. The performance enhancement degrades linearly as the gate length becomes shorter, due to not only the parasitic resistance but also heavy halo implant. Thus the key integration issues are how to manage threshold difference and As diffusion without excess doping. With comparable doping and well controlled parasitic resistance, up to 45% improvement in drive current is predicted for sub-50 nm gate length strained-Si nMOSFETs on the Si/sub 0.8/Ge/sub 0.2/ substrate. In this work approximately 45% enhancement is in fact demonstrated for 35 nm gate length devices, through advanced channel engineering and implementation of metal gates.

Archive | 2002

FinFET device incorporating strained silicon in the channel region

Ming-Ren Lin; Jung-Suk Goo; Haihong Wang; Qi Xiang

Archive | 2003

Mosfets incorporating nickel germanosilicided gate and methods for their formation

Eric N. Paton; Qi Xiang; Paul R. Besser; Ming-Ren Lin; Minh Van Ngo; Haihong Wang

Archive | 2003

Finfet having improved carrier mobility and method of its formation

Ming-Ren Lin; Jung-Suk Goo; Haihong Wang; Qi Xiang

Archive | 2003

Semiconductor with tensile strained substrate and method of making the same

Minh Van Ngo; Paul R. Besser; Ming-Ren Lin; Haihong Wang

Archive | 2002

Semiconductor device having a thick strained silicon layer and method of its formation

Qi Xiang; Jung-Suk Goo; Haihong Wang

Archive | 2003

Method of forming a thick strained silicon layer and semiconductor structures incorporating a thick strained silicon layer

Haihong Wang; Paul R. Besser; Jung Suk Goo; Minh Van Ngo; Eric N. Paton; Qi Xiang

Archive | 2004

Strained silicon MOSFET having improved source/drain extension dopant diffusion resistance and method for its fabrication

Qi Xiang; Jung-Suk Goo; Haihong Wang

Archive | 2003

Strained silicon MOSFET having reduced leakage and method of its formation

Qi Xiang; Ming Ren Lin; Minh Van Ngo; Eric N. Paton; Haihong Wang

Archive | 2003

Shallow trench isolation for strained silicon processes

Haihong Wang; Minh-Van Ngo; Qi Xiang; Paul R. Besser; Eric N. Paton; Ming-Ren Lin

Explore More

Collaboration

Dive into the Haihong Wang's collaboration.

Top Co-Authors

Advanced Micro Devices

View shared research outputs

Top Co-Authors

Advanced Micro Devices

View shared research outputs

Top Co-Authors

Advanced Micro Devices

View shared research outputs

Top Co-Authors

Advanced Micro Devices

View shared research outputs

Top Co-Authors

GlobalFoundries

View shared research outputs

Top Co-Authors

Advanced Micro Devices

View shared research outputs

Top Co-Authors

Advanced Micro Devices

View shared research outputs

Top Co-Authors

Advanced Micro Devices

View shared research outputs

Top Co-Authors

GlobalFoundries

View shared research outputs

Top Co-Authors

Advanced Micro Devices

View shared research outputs

Explore More