TY - JOUR
AU - Allen, Paul C.
AB - The projected rapid reduction in mask minimum feature size from the 250 nm to the 100 nm wafer generation will drive laser pattern generators to deep UV wavelengths. Commercially available sources exist in the 250 nm wavelength region using nonlinear optical materials to frequency double longer wavelength laser lines. Nonlinear optical materials, such as SBBO and KBBF, exist for wavelengths below 200 nm but they have not been commercialized. Second harmonic generation in intracavity or mode-locked, external resonant-ring laser configurations can be used to produce sub-200 nm radiation. Existing system architectures are shown to be easily modified to use pulsed sources with a high repetition rate. Advances in nonlinear optical materials, laser design, and system architecture will ensure that laser pattern generation will be an effective maskmaking technology for the next decade.
TI - Laser pattern-generation technology below 0.25 ॖm
JF - Proceedings of SPIE
DO - 10.1117/12.310774
DA - 1998-06-29
UR - https://www.deepdyve.com/lp/spie/laser-pattern-generation-technology-below-0-25-m-PRSkA6lVrV
SP - 460
EP - 468
VL - 3334
IS - 1
DP - DeepDyve
ER -