Process variation on lot-to-lot and wafer-to-wafer level has been well addressed using R2R control in advanced process control, however, to tackle the ever increasing die-to-die (i.e. across-wafer) level process variation at the 65nm technology node and beyond, the process control must be extended into finer domain: across-wafer level. A novel model based process control approach [2] was proposed to reduce the critical dimension (CD) variation on across-wafer level. The central idea of the proposed approach is to compensate for upstream and downstream systematic CD variation by adjusting the across-wafer Post-Exposure Bake (PEB) temperature profile of a multi-zone bake plate. A temperature-to-offset model relating the PEB temperature profil...
Advantages and disadvantages of various types of temperature measurement techniques are reviewed in ...
Post exposure bake (PEB) process among the lithography steps is important for making good patterns w...
241 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2007.Wafer-to-wafer reproducibilit...
Post exposure bake (PEB) is the most important process for chemically amplified resist to make nano-...
Measurement and control of substrate temperature is critical to the reduction of process variation w...
Increased manufacturing yields can be obtained by reducing process variation. One potential method t...
The measurement of process variables such as temperature, stress/strain, force, and pressure at diff...
Thesis: M. Eng. in Manufacturing, Massachusetts Institute of Technology, Department of Mechanical En...
Feed-forward and feedback control are used to compensate for variations caused by processes or equip...
The semiconductor manufacturing technology is getting closer to manufacturing sub-0.1mum devices. As...
Chemically amplified resists depend upon the post-exposure bake (PEB) process to drive the deprotect...
The increasingly stringent tolerance of linewidths is a result of shrinking feature size of integrat...
Chemically amplified resists are used for 248 nm, 193 nm, immersion and extreme ultraviolet (UV) lit...
Chemically amplified resists are used for 248 nm, 193 nm, immersion and extreme ultraviolet (UV) lit...
Abstract-Modern submicron processes are more sensitive to both random and systematic wafer-level pro...
Advantages and disadvantages of various types of temperature measurement techniques are reviewed in ...
Post exposure bake (PEB) process among the lithography steps is important for making good patterns w...
241 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2007.Wafer-to-wafer reproducibilit...
Post exposure bake (PEB) is the most important process for chemically amplified resist to make nano-...
Measurement and control of substrate temperature is critical to the reduction of process variation w...
Increased manufacturing yields can be obtained by reducing process variation. One potential method t...
The measurement of process variables such as temperature, stress/strain, force, and pressure at diff...
Thesis: M. Eng. in Manufacturing, Massachusetts Institute of Technology, Department of Mechanical En...
Feed-forward and feedback control are used to compensate for variations caused by processes or equip...
The semiconductor manufacturing technology is getting closer to manufacturing sub-0.1mum devices. As...
Chemically amplified resists depend upon the post-exposure bake (PEB) process to drive the deprotect...
The increasingly stringent tolerance of linewidths is a result of shrinking feature size of integrat...
Chemically amplified resists are used for 248 nm, 193 nm, immersion and extreme ultraviolet (UV) lit...
Chemically amplified resists are used for 248 nm, 193 nm, immersion and extreme ultraviolet (UV) lit...
Abstract-Modern submicron processes are more sensitive to both random and systematic wafer-level pro...
Advantages and disadvantages of various types of temperature measurement techniques are reviewed in ...
Post exposure bake (PEB) process among the lithography steps is important for making good patterns w...
241 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2007.Wafer-to-wafer reproducibilit...