Intel Corporation and Corning Incorporated have entered into an agreement to develop ultra low thermal expansion ULE® glass photomask substrates required for Extreme Ultraviolet (EUV) lithography technology. These substrates are needed to develop low defect EUV photomasks to enable 32nm node high-volume production using EUV lithography.
Lithography tools are used in chip making to print patterns on a silicon wafer. Today, the industry uses lithography tools that use a 193nm wavelength of light to print transistors as small as 50nm. That is equivalent to a painter trying to draw very fine lines using a thick brush. EUV lithography technology will use light that is only 13.5nm wavelength of light, so it can provide chip makers with a very fine brush to draw smaller transistors in the future.
Corning has a rich history of developing innovative products and our extensive optical materials and process knowledge have positioned the ULE product as the optimal material for EUV photomask substrates, stated Jim Steiner, senior vice president and general manager, Corning Specialty Materials.
Intels leading position in advanced semiconductor manufacturing will provide the expertise Corning requires to respond rapidly to industry requirements. The joint development program will help to enable chip production using EUV technology starting in 2009.
The cooperative efforts of Corning and Intel will provide the opportunity to develop ULE® glass substrates and position them as the material of choice for EUV photomasks, Steiner said. We are excited to be working with a technology leader in the semiconductor industry, and this reaffirms Cornings commitment to develop the best optical materials available for semiconductor lithography.
Driving down EUV photomask defect levels is a critical issue for the commercialization of EUV technology. Corning and Intel plan to address the mask substrate contribution to this issue, said Janice Golda, Intels director of lithography. The development of higher-quality EUV masks, along with Intels related efforts in light sources, lithography equipment and new photo resists, will help create the infrastructure needed to position EUV lithography as the key technology for the future.
EUV lithography has been identified by the International Roadmap of Semiconductor Technology as the leading technology solution for next-generation lithography after the current 193nm generation of lithography tools.