The Effect of Etching and Deposition Processes on the Width of Spacers Created during Self-Aligned Double Patterning

Abstract

Topography process simulation has been used to study the interaction of etching and deposition processes for spacer creation for self-aligned double patterning (SADP). For the deposition process, the influence of the layer conformality was investigated. For the etching processthe directionality of the ion flux was varied. The simulations show that by an appropriate combination of the deposition and etching processes, spacers can be created with the desired critical dimension (CD) and a small deviation between the inner and outer space CD values. In addition to using the simulation flow for tuning the processes, it can be employed to investigate the influence of variations. As an example, we studied the effect of the across-wafer non-uniformity of the thickness of the deposited oxide layer. For the process sequence considered, therelative change of the spacer CD is 4 to 5 times larger than the relative change of the oxide thickness.