Add to ORKGThe need to extend 193nm immersion lithography necessitates the development of a third generation (Gen-3) of high refractive index (RI) fluids that will enable approximately 1.7 numerical aperture (NA) imaging. A multi-pronged approach was taken to develop these materials. One approach investigated the highest-index organic thus far discovered. The second approach used a very high refractive index nanoparticle to make a nanocomposite fluid. This report will describe the chemistry of the best Gen-3 fluid candidates and the systematic approach to their identification and synthesis. Images obtained with the Gen-3 fluid candidates will also be presented for a NA ≥ 1.
Optically transparent immersion liquids with refractive index (n ∼ 1.77) to match the sapphire-based...
It is possible to extend optical lithography by using immersion imaging methods. Historically, the a...
In a search for alkane candidates for 193 nm immersion fluids, several alkanes and cycloalkanes were...
The need to extend 193nm immersion lithography necessitates the development of a third generation (G...
For the next-generation immersion lithography technology, there is a growing interest in the immersi...
To identify the most practical and cost-effective technology after water immersion lithography (Gen1...
Generation-three (Gen-3) immersion lithography offers the promise of enabling the 32nm half-pitch no...
The physical limitations of lithographic imaging are ultimately imposed by the refractive indices of...
\u3cp\u3eThe concept of using dispersions of nanoparticles as high refractive index fluids in immers...
Generation-three (Gen-3) immersion lithography can be an enabler for the 32nm half-pitch node. For G...
The search for successful generation 3 immersion lithography fluids is focused on high refractive in...
The physical limitations of lithographic imaging are ultimately imposed by the refractive indices of...
We have performed high-index immersion fluid studies to define the levels of both soluble and insolu...
In a search for alkane candidates for 193 nm immersion fluids, several alkanes and cycloalkanes were...
Optically transparent immersion liquids with refractive index (n ∼ 1.77) to match the sapphire-based...
Optically transparent immersion liquids with refractive index (n ∼ 1.77) to match the sapphire-based...
It is possible to extend optical lithography by using immersion imaging methods. Historically, the a...
In a search for alkane candidates for 193 nm immersion fluids, several alkanes and cycloalkanes were...
The need to extend 193nm immersion lithography necessitates the development of a third generation (G...
For the next-generation immersion lithography technology, there is a growing interest in the immersi...
To identify the most practical and cost-effective technology after water immersion lithography (Gen1...
Generation-three (Gen-3) immersion lithography offers the promise of enabling the 32nm half-pitch no...
The physical limitations of lithographic imaging are ultimately imposed by the refractive indices of...
\u3cp\u3eThe concept of using dispersions of nanoparticles as high refractive index fluids in immers...
Generation-three (Gen-3) immersion lithography can be an enabler for the 32nm half-pitch node. For G...
The search for successful generation 3 immersion lithography fluids is focused on high refractive in...
The physical limitations of lithographic imaging are ultimately imposed by the refractive indices of...
We have performed high-index immersion fluid studies to define the levels of both soluble and insolu...
In a search for alkane candidates for 193 nm immersion fluids, several alkanes and cycloalkanes were...
Optically transparent immersion liquids with refractive index (n ∼ 1.77) to match the sapphire-based...
Optically transparent immersion liquids with refractive index (n ∼ 1.77) to match the sapphire-based...
It is possible to extend optical lithography by using immersion imaging methods. Historically, the a...
In a search for alkane candidates for 193 nm immersion fluids, several alkanes and cycloalkanes were...