Raster-shaped beam pattern generation for 70-nm photomask production

Thomas H. Newman; Ira Finklestein; Huei-Mei Kao; Sriram Krishnaswami; Darryn Long; Richard L. Lozes; Henry Thomas Pearce-Percy; Allan L. Sagle; Jeffrey K. Varner; Stacey Winter; Mark A. Gesley; Frank E. Abboud

doi:10.1117/12.468198

27 December 2002 Raster Shaped Beam Pattern Generation for 70 nm Photomask Production

Thomas H. Newman, Ira Finklestein, Huei-Mei Kao, Sriram Krishnaswami, Darryn Long, Richard L. Lozes, Henry Thomas Pearce-Percy, Allan L. Sagle, Jeffrey K. Varner, Stacey Winter, Mark A. Gesley, Frank E. Abboud

Author Affiliations +

Proceedings Volume 4889, 22nd Annual BACUS Symposium on Photomask Technology; (2002) https://doi.org/10.1117/12.468198
Event: Photomask Technology 2002, 2002, Monterey, CA, United States

Abstract

Photomask complexity is rapidly increasing as feature sizes are scaled down and as optical proximity correction (OPC) methods become widespread. The growing data content of critical mask levels requires that pattern generator solutions be adapted to maintain productivity. Raster shaped beam (RSB) technology has been developed to enable the production of 70 nm photomasks and the development of 50 nm masks. RSB is built on and extends the capability of the 50 kV MEBES platform. The beam is shaped as it is scanned, printing the mask pattern on a calibrated flash grid. Complex OPC patterns are efficiently tiled by combining a relatively small maximum shape size with a high flash rate of 100 MHz. The maximum shape size and the current density can be adjusted to match a wide set of mask applications. Proximity effects are corrected with dose modulation using a real-time computation.

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Thomas H. Newman, Ira Finklestein, Huei-Mei Kao, Sriram Krishnaswami, Darryn Long, Richard L. Lozes, Henry Thomas Pearce-Percy, Allan L. Sagle, Jeffrey K. Varner, Stacey Winter, Mark A. Gesley, and Frank E. Abboud "Raster Shaped Beam Pattern Generation for 70 nm Photomask Production", Proc. SPIE 4889, 22nd Annual BACUS Symposium on Photomask Technology, (27 December 2002); https://doi.org/10.1117/12.468198

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