Integration challenges for multi-gate devices

The FinFET transistor is the most widely studied and known multi-gate architecture that has the potential to be scaled to beyond the 45 nm technology node. In this paper a number of integration issues have been addressed. In first section the patterning challenges have been discussed. Due to the particular layout of the FinFET devices a variation in fin width is seen due to the rounding of the fin opening. This problem can be addressed by looking at alternative litho settings and OPC. Next to that topography plays an important in patterning the gate. It is seen that the optimization of the different OE times is key in achieving a controlled gate profile without poly residues. Techniques like poly etch-back can be used to alleviate the topography issues as much as possible. Threshold voltage tuning with implantation is extremely difficult for narrow fin devices. Workfunction tuning by either deposited metal gate or full silicidation is seen as a more viable solution. The extensions and deep source/drain areas need to be as conformal as possible in order to avoid the dominance of the top channel over the sidewalls. However, conventional implantation techniques are unsuitable and alternative implantation techniques need to be investigated. Next to that, when high density is needed, the fin spacing will limit the allowed tilt angle due to implant shadowing. The sidewall crystal orientation is different from that of the top channel and this will impact the mobility of holes and electrons in a different way. Rotation of the fins over 45 degrees, the use of strained layers and strained SiGe source/drain have been briefly discussed as possible solutions to tackle this problem. Finally, the impact of the fin width on R_SD has been shown. Elevated source/drain has been brought forward as a solution to this problem.