Add to ORKGThree different architectures were compared as candidates for EUV lithography masks. Binary masks were fabricated using two different stacks of absorber materials and using a selective etching process to directly pattern the multilayer of the mask blank. To compare the effects of mask architecture on resist patterning, all three masks were used to print features into photoresist on the EUV micro-exposure tool (MET) at Lawrence Berkeley National Laboratory. Process windows, depth of focus, mask contrast at EUV, and horizontal and vertical line width bias were use as metrics to compare mask architecture. From printing experiments, a mask architecture using a tantalum nitride absorber stack exhibited the greatest depth of focus and process win...
Over the recent years EUV lithography has demonstrated the patterning of ever shrinking feature size...
Over the recent years EUV lithography has demonstrated the patterning of ever shrinking feature size...
Over the recent years, extreme ultraviolet (EUV) lithography has demonstrated the patterning of ever...
Extreme Ultraviolet Lithography (EUVL) is the favourite next generation lithography candidate for IC...
In next-generation EUV imaging for foundry N5 dimensions and beyond, inherent pitch- and orientation...
The absorber stack on the conventional mask in extreme ultraviolet (EUV) lithography technology lead...
In next-generation EUV imaging for foundry N5 dimensions and beyond, inherent pitch- and orientation...
In next-generation EUV imaging for foundry N5 dimensions and beyond, inherent pitch- and orientation...
In next-generation EUV imaging for foundry N5 dimensions and beyond, inherent pitch- and orientation...
In next-generation EUV imaging for foundry N5 dimensions and beyond, inherent pitch- and orientation...
In next-generation EUV imaging for foundry N5 dimensions and beyond, inherent pitch- and orientation...
The EUV laboratory exposure tool (EUV-LET) is a versatile stand-alone resist patterning tool. Main a...
Over the recent years EUV lithography has demonstrated the patterning of ever shrinking feature size...
Over the recent years EUV lithography has demonstrated the patterning of ever shrinking feature size...
EUV is considered the most likely technology following the current 193nm immersion lithography. Whil...
Over the recent years EUV lithography has demonstrated the patterning of ever shrinking feature size...
Over the recent years EUV lithography has demonstrated the patterning of ever shrinking feature size...
Over the recent years, extreme ultraviolet (EUV) lithography has demonstrated the patterning of ever...
Extreme Ultraviolet Lithography (EUVL) is the favourite next generation lithography candidate for IC...
In next-generation EUV imaging for foundry N5 dimensions and beyond, inherent pitch- and orientation...
The absorber stack on the conventional mask in extreme ultraviolet (EUV) lithography technology lead...
In next-generation EUV imaging for foundry N5 dimensions and beyond, inherent pitch- and orientation...
In next-generation EUV imaging for foundry N5 dimensions and beyond, inherent pitch- and orientation...
In next-generation EUV imaging for foundry N5 dimensions and beyond, inherent pitch- and orientation...
In next-generation EUV imaging for foundry N5 dimensions and beyond, inherent pitch- and orientation...
In next-generation EUV imaging for foundry N5 dimensions and beyond, inherent pitch- and orientation...
The EUV laboratory exposure tool (EUV-LET) is a versatile stand-alone resist patterning tool. Main a...
Over the recent years EUV lithography has demonstrated the patterning of ever shrinking feature size...
Over the recent years EUV lithography has demonstrated the patterning of ever shrinking feature size...
EUV is considered the most likely technology following the current 193nm immersion lithography. Whil...
Over the recent years EUV lithography has demonstrated the patterning of ever shrinking feature size...
Over the recent years EUV lithography has demonstrated the patterning of ever shrinking feature size...
Over the recent years, extreme ultraviolet (EUV) lithography has demonstrated the patterning of ever...