Add to ORKGAs critical dimensions shrink, line edge and width roughness (LER and LWR) become of increasing concern. Traditionally LER is viewed as a resist-limited effect; however, as critical dimensions shrink and LER requirements become proportionally more stringent, system-level effects begin to play an important role. Recent advanced EUV resist testing results have demonstrated lower bounds on achievable LER at the level of approximately 2 to 3 nm. Here we use modeling to demonstrate that a significant portion of this low bound may in fact be do to system-level effects and in particular the mask. Of concern are both LER on the mask as well as roughness of the multilayer reflector. Modeling also shows roughness (flare) in the projection optics not ...
Microfield exposure tools (METs) continue to play a dominant role in the development of extreme ultr...
Collective understanding of how both the resist and line-edge roughness (LER) on the mask affect the...
Extreme ultraviolet lithography (EUVL) has been developed and studied for a sub-22 nm semiconductor ...
This dissertation presents a thorough investigation of how mask roughness induces speckle in the aer...
Line-edge roughness (LER) and the related effect of contact size variation remain as significant cha...
As critical dimensions for leading-edge semiconductor devices shrink, line-edge roughness (LER) requ...
Line-edge roughness (LER) remains the most significant challenge facing the development of extreme u...
Mask contributors to line-edge roughness (LER) have recently been shown to be an issue of concern fo...
In the push towards commercialization of extreme-ultraviolet lithography (EUVL), meeting the stringe...
Much work has already been done on how both the resist and line-edge roughness (LER) on the mask aff...
Line edge roughness (LER) is a potential showstopper for the semiconductor industry. As the width of...
Extreme ultraviolet lithography (EUVL) has been prepared for next-generation lithography for several...
Extreme ultraviolet lithography (EUVL) has been prepared for next-generation lithography for several...
Although extreme ultraviolet lithography (EUVL) has potential to enable 5-nm half-pitch resolution i...
Here we conduct a mask-roughness-induced line-edge-roughness (LER) aberrations sensitivity study bot...
Microfield exposure tools (METs) continue to play a dominant role in the development of extreme ultr...
Collective understanding of how both the resist and line-edge roughness (LER) on the mask affect the...
Extreme ultraviolet lithography (EUVL) has been developed and studied for a sub-22 nm semiconductor ...
This dissertation presents a thorough investigation of how mask roughness induces speckle in the aer...
Line-edge roughness (LER) and the related effect of contact size variation remain as significant cha...
As critical dimensions for leading-edge semiconductor devices shrink, line-edge roughness (LER) requ...
Line-edge roughness (LER) remains the most significant challenge facing the development of extreme u...
Mask contributors to line-edge roughness (LER) have recently been shown to be an issue of concern fo...
In the push towards commercialization of extreme-ultraviolet lithography (EUVL), meeting the stringe...
Much work has already been done on how both the resist and line-edge roughness (LER) on the mask aff...
Line edge roughness (LER) is a potential showstopper for the semiconductor industry. As the width of...
Extreme ultraviolet lithography (EUVL) has been prepared for next-generation lithography for several...
Extreme ultraviolet lithography (EUVL) has been prepared for next-generation lithography for several...
Although extreme ultraviolet lithography (EUVL) has potential to enable 5-nm half-pitch resolution i...
Here we conduct a mask-roughness-induced line-edge-roughness (LER) aberrations sensitivity study bot...
Microfield exposure tools (METs) continue to play a dominant role in the development of extreme ultr...
Collective understanding of how both the resist and line-edge roughness (LER) on the mask affect the...
Extreme ultraviolet lithography (EUVL) has been developed and studied for a sub-22 nm semiconductor ...