Paper
15 March 2016 Ultimate 2D resolution printing with negative tone development
Author Affiliations +
Abstract
The printing of contact holes using positive tone development typically requires the interference of more than the 0th and 1st diffracted orders. In the 2d case and cQuad illumination in a positive tone process, if (0,0), (±1,0), and (0,±1) are exclusively present, the relevant contrast for imaging can in the best case not rise above 0.33, which is typically insufficient for a good process window. And this maximum value can only be achieved if the (0,0) and (±1,0) orders are matched to give a perfect sine wave of perfect contrast in y while the (0,0) and (0,±1) orders yield perfect contrast in x. In reality, the contrast is quite a bit lower. On the other hand, for negative tone development we are interested in the minima of the intensity–the dark locations in the image–and if we can manage to reduce the intensity in the minima we can achieve a high contrast image. Through a choice of RET and illumination, we manage to achieve a resolution for contact holes in 2d at k1 values that can otherwise be achieved only for 1d imaging.

Earlier work has been done on double exposures that exposed in the same resist a horizontal grating with x-dipoles and subsequently a vertical grating with y dipoles, without intermediate process steps. This yielded a high contrast image in resist at k1 <0.3.1 We show that an equivalent result can be achieved in a single exposure with a single mask, at admittedly high dose. We investigate the process parameters and the related mask tolerances, and find a non-intuitive result for the mask pattern that yields an optimized image at given mask specifications. Finally, we investigate the extension of this technique to EUV through simulations and experiments.
© (2016) COPYRIGHT Society of Photo-Optical Instrumentation Engineers (SPIE). Downloading of the abstract is permitted for personal use only.
Martin Burkhardt, Yongan Xu, Hsinyu Tsai, Alexander Tritchkov, and Jörg Mellmann "Ultimate 2D resolution printing with negative tone development", Proc. SPIE 9780, Optical Microlithography XXIX, 97800E (15 March 2016); https://doi.org/10.1117/12.2219765
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KEYWORDS
Photomasks

Printing

Extreme ultraviolet

Fiber optic illuminators

Optical proximity correction

Image processing

Lithography

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