Linewidth roughness characterization in step and flash imprint lithography

Gerard M. Schmid; Niyaz Khusnatdinov; Cynthia B. Brooks; Dwayne LaBrake; Ecron Thompson; Douglas J. Resnick

doi:10.1117/12.796015

19 May 2008 Linewidth roughness characterization in step and flash imprint lithography

Gerard M. Schmid, Niyaz Khusnatdinov, Cynthia B. Brooks, Dwayne LaBrake, Ecron Thompson, Douglas J. Resnick

Proceedings Volume 7028, Photomask and Next-Generation Lithography Mask Technology XV; 70280A (2008) https://doi.org/10.1117/12.796015
Event: Photomask and NGL Mask Technology XV, 2008, Yokohama, Japan

Abstract

Despite the remarkable progress made in extending optical lithography to deep sub-wavelength imaging, the limit for the technology seems imminent. At 22nm half pitch design rules, neither very high NA tools (NA 1.6), nor techniques such as double patterning are likely to be sufficient. One of the key challenges in patterning features with these dimensions is the ability to minimize feature roughness while maintaining reasonable process throughput. This limitation is particularly challenging for electron and photon based NGL technologies, where fast chemically amplified resists are used to define the patterned images. Control of linewidth roughness (LWR) is critical, since it adversely affects device speed and timing in CMOS circuits. Imprint lithography has been included on the ITRS Lithography Roadmap at the 32 and 22 nm nodes. This technology has been shown to be an effective method for replication of nanometer-scale structures from a template (imprint mask). As a high fidelity replication process, the resolution of imprint lithography is determined by the ability to create a master template having the required dimensions. Although the imprint process itself adds no additional linewidth roughness to the patterning process, the burden of minimizing LWR falls to the template fabrication process. Non chemically amplified resists, such as ZEP520A, are not nearly as sensitive but have excellent resolution and can produce features with very low LWR. The purpose of this paper is to characterize LWR for the entire imprint lithography process, from template fabrication to the final patterned substrate. Three experiments were performed documenting LWR in the template, imprint, and after pattern transfer. On average, LWR was extremely low (less than 3nm, 3σ), and independent of the processing step and feature size.

Citation Download Citation

Gerard M. Schmid, Niyaz Khusnatdinov, Cynthia B. Brooks, Dwayne LaBrake, Ecron Thompson, and Douglas J. Resnick "Linewidth roughness characterization in step and flash imprint lithography", Proc. SPIE 7028, Photomask and Next-Generation Lithography Mask Technology XV, 70280A (19 May 2008); https://doi.org/10.1117/12.796015

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