Patent ID: 9171731
Filing Date: 2015-10-27
Classification: H01L

Abstract:
1. A method of forming the gate with a Litho-Etch-Litho-Etch (LELE) double pattern, wherein said method comprises the following steps: depositing an advanced patterning film layer and a hard mask layer on a semiconductor substrate which is provided with a gate layer structure; etching the hard mask layer by an etching process to form a hard mask structure; etching the advanced patterning film layer by using the hard mask structure as a mask for forming an advanced patterning mask and stopping etching of the advanced patterning film layer at the upper surface of the gate layer structure; and etching the gate layer structure by the advanced patterning mask for forming gate structures and stopping the etching of the gate layer structure at the upper surface of the semiconductor substrate; wherein the gate structure comprises a gate oxide layer, a polysilicon layer and a first silicon nitride layer; the gate oxide layer covers the upper surface of the semiconductor substrate, the polysilicon layer covers the upper surface of the gate oxide layer, the first silicon nitride layer covers the upper surface of the polysilicon, the advanced patterning layer covers the upper surface of the first silicon nitride layer; the hard mask layer comprises a first dielectric anti-reflectivity layer, a second silicon nitride layer, and a second dielectric anti-reflectivity layer; the first dielectric anti-reflectivity layer covers the surface of the advanced patterning film layer, and the second silicon nitride layer covers the surface of the first dielectric anti-reflectivity layer, the second dielectric anti-reflectivity layer covers the surface of the second silicon nitride layer; wherein the etching process comprises a first photoetch process, a first etching process, a second photoetch process and a second etching process, the hard mask structure comprises a first hard mask structure and a second hard mask structure; after a first bottom anti-reflectivity layer is formed on the surface of the second dielectric anti-reflectivity layer, a first photoresist is formed on the first bottom anti-reflectivity layer by using the first photoetch process, then the first bottom anti-reflectivity layer, the first dielectric anti-reflectivity layer and the second silicon nitride layer is etched by using the first photoresist as the mask, and the etch stops in the remaining second dielectric anti-reflectivity layer, then the first photoresist and the remaining first bottom anti-reflectivity layer are removed, so that the first hard mask structure is formed in the remaining hard mask layer; a second bottom anti-reflectivity layer is formed, which covers the remaining hard mask layer, then a second photoresist is formed at the surface of the second bottom anti-reflectivity layer, and then parts of the second bottom anti-reflectivity layer and the remaining hard mask layer are removed by using the second etching process, then the second hard mask structure is formed.