Detailed characteristics of three classical rectangular convex corner compensation structures on(100) silicon substrates have been investigated, and their common design steps are summarized.By combining the basic me...Detailed characteristics of three classical rectangular convex corner compensation structures on(100) silicon substrates have been investigated, and their common design steps are summarized.By combining the basic method of a silicon wet anisotropic etching process, a general method of generating compensation structures for a rectangular convex corner is put forward.This calls for the following two steps:define the topological field and fit some borderlines together into practical compensation patterns.The rules, which must be obeyed during this process, are summarized.By introducing this method, some novel compensation patterns for rectangular convex corner structures are created on both(100) and(110) substrates, and finally simulation results are given to prove this new method's validity and applicability.展开更多
文摘Detailed characteristics of three classical rectangular convex corner compensation structures on(100) silicon substrates have been investigated, and their common design steps are summarized.By combining the basic method of a silicon wet anisotropic etching process, a general method of generating compensation structures for a rectangular convex corner is put forward.This calls for the following two steps:define the topological field and fit some borderlines together into practical compensation patterns.The rules, which must be obeyed during this process, are summarized.By introducing this method, some novel compensation patterns for rectangular convex corner structures are created on both(100) and(110) substrates, and finally simulation results are given to prove this new method's validity and applicability.