The impact of projection lens polarization properties on lithographic process at hyper-NA

Bernd Geh; Johannes Ruoff; Jörg Zimmermann; Paul Gräupner; Michael Totzeck; Markus Mengel; Uwe Hempelmann; Emil Schmitt-Weaver

doi:10.1117/12.722317

26 March 2007 The impact of projection lens polarization properties on lithographic process at hyper-NA

Bernd Geh, Johannes Ruoff, Jörg Zimmermann, Paul Gräupner, Michael Totzeck, Markus Mengel, Uwe Hempelmann, Emil Schmitt-Weaver

Author Affiliations +

Proceedings Volume 6520, Optical Microlithography XX; 65200F (2007) https://doi.org/10.1117/12.722317
Event: SPIE Advanced Lithography, 2007, San Jose, California, United States

Abstract

The continuous implementation of novel technological advances in optical lithography is pushing the technology to ever smaller feature sizes. For instance, it is now well recognized that the 45nm node will be executed using state-of-the-art ArF (193nm) hyper-NA immersion-lithography. Nevertheless, a substantial effort will be necessary to make imaging enhancement techniques like hyper-NA immersion technology, polarized illumination or sophisticated illumination modes routinely available for production environments. In order to support these trends, more stringent demands need to be placed on the lithographic optics. Although this holds for both the illumination unit and the projection lens, this paper will focus on the latter module. Today, projection lens aberrations are well controlled and their lithographic impact is understood. With the advent of imaging enhancement techniques such as hyper-NA immersion lithography and the implementation of polarized illumination, a clear description and control of the state of polarization throughout the complete optical system is required. Before polarization was used to enhance imaging, the imaging properties at each field position of the lens could be fully characterized by 2 pupil maps: a phase map and a transmission map. For polarized imaging, these two maps are replaced by a 2x2 complex Jones matrix for each point in the pupil. Although such a pupil of Jones matrices (short: Jones pupil) allows for a full and accurate description of the physical imaging, it seems to lack transparency towards direct visualization and lithographic imaging relevance. In this paper we will present a comprehensive method to decompose the Jones pupils into quantities that represent a clear physical interpretation and we will study the relevance of these quantities for the imaging properties of lithography lenses.

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Bernd Geh, Johannes Ruoff, Jörg Zimmermann, Paul Gräupner, Michael Totzeck, Markus Mengel, Uwe Hempelmann, and Emil Schmitt-Weaver "The impact of projection lens polarization properties on lithographic process at hyper-NA", Proc. SPIE 6520, Optical Microlithography XX, 65200F (26 March 2007); https://doi.org/10.1117/12.722317

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