Litcius/Paper detail

Mask-absorber optimization: the next phase

Claire van Lare, Frank Timmermans, Jo Finders

2020Journal of Micro/Nanolithography MEMS and MOEMS36 citationsDOI

Abstract

We continue our work on the physics of mask-topography-induced phase effects in imaging using extreme ultraviolet (EUV) lithography, and specifically how these effects can be mitigated by alternative mask absorbers. We present a semianalytical model to calculate the mask-topography-induced phase offset and study its trend throughout the entire material space at 13.5-nm wavelength. We demonstrate that the model is in good agreement with 3D rigorous simulations. Using the model, we explain why the previously demonstrated phase shift close to 1.2π works optimally for EUV imaging. We show a low refractive index mask absorber (n < 0.91) is crucial for good mask 3D mitigation. We demonstrate the importance of mask bias and incident angle for imaging with an optimized attenuated phase-shift mask (PSM), which makes good source-mask optimization indispensable. We present the lithographic performance of alternative mask absorbers including a high-k mask, and a low- and high-transmission attenuated PSM for a few basic use cases, confirming the lithographic gain that can be obtained by mask-absorber optimization.

Topics & Concepts

Extreme ultraviolet lithographyLithographyOpticsExtreme ultravioletWavelengthOffset (computer science)Materials scienceRefractive indexPhase (matter)PhotolithographyPhysicsComputer scienceQuantum mechanicsProgramming languageLaserAdvancements in Photolithography TechniquesElectron and X-Ray Spectroscopy TechniquesIntegrated Circuits and Semiconductor Failure Analysis