Evaluation of field stitching optimization for robust manufacturing with high-NA EUVL

Levinson, Zachary A.; Dam, Thuc; Pfaeffli, P.; Lee, C.Jay; Hoppe, W; Klostermann, Ulrich; Lucas, Kevin

doi:10.1117/12.2659721

Cited by 2 publications

(3 citation statements)

References 6 publications

(9 reference statements)

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“…Both images use the same exposure settings, a dipole illumination suited for P28nm. The CD measured along the vertical 14nm trench under the Abs-BB edge presents a smooth transition as reported in earlier publication [6]. A similar simulation is run at NA0.33 and at NA0.55 using the same mask, see Figure 14.…”

Section: Ls Under the Absorber To Black-border Transitionsupporting

confidence: 65%

“…We [2] also reported how pattern placement error results from the multilayer stress relaxation next to an etched black border. In reference [6] rigorous simulations also confirm this explanation. Finally, as the flare of one image leaks beyond the BB edge, the respective flare of the abutting images will add to each other.…”

Section: Introductionmentioning

confidence: 73%

“…As mentioned in the paragraph 2.2 and illustrated in Figure 5, CD variations are measured in the stitching region along the stitched trench that will be corrected by OPC [8][9] [10]. The OPC will limit the edge placement error after stitching in resist.…”

Section: Opc At and Near Stichmentioning

confidence: 99%

See 2 more Smart Citations

An experimental stitching study on the eve of high-NA EUV

Wiaux,

Davydova,

Van Look

et al. 2024

Optical and EUV Nanolithography XXXVII

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The combination of High NA EUV anamorphic projection optics and unchanged mask-blank size result in a "High NA field" with a maximum size of 26x16.5 mm² at wafer level. Therefore, to create a die larger than the High NA full field, two images are stitched together. So-called in-die stitching is enabled by a combination of design, mask, OPC, process, and scanner solutions. We present an overview of our learnings about at-resolution stitching based on a representative experimental study at NA=0.33, in preparation for tomorrow's NA=0.55.For a pitch 28nm vertical line-space, optimum conditions are confirmed experimentally to create a robust stitch. A P28 LS is measured post-stitching utilizing either a Ta absorber or a low-n absorber. For the latter, the higher reflectivity is experimentally mitigated by using sub-resolution-gratings. We also quantify the imaging impact of the transition between the absorber and the black border in the stitching region.

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Section: Ls Under the Absorber To Black-border Transitionsupporting

confidence: 65%

Section: Introductionmentioning

confidence: 73%

See 1 more Smart Citation

An experimental stitching study on the eve of high-NA EUV

Wiaux,

Davydova,

Van Look

et al. 2024

Optical and EUV Nanolithography XXXVII

View full text Add to dashboard Cite

show abstract

Full-field correction for stitched double exposure high-NA EUVL processes

Levinson,

Wu,

Hoppe

2024

DTCO and Computational Patterning III

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In this paper we will evaluate the impact of stitching on process window and show how EDA can help to improve the manufacturability of stitched layers. More specifically, we demonstrate modeling of double exposure effects suitable for full-field correction and verification that incorporates aerial image cross-talk, optical black border transitions, subresolution gratings, sub-resolution assist-features and long-range flare. We also evaluate how stitching impacts different high NA processes and how correction of these effects (ex. via optical proximity correction, inverse lithography technology) can be used to increase process robustness. Finally, we examine the impact of stitched pattern overlap to process window and how loss of process window due to stitching can be mitigated.

show abstract

Evaluation of field stitching optimization for robust manufacturing with high-NA EUVL

Cited by 2 publications

References 6 publications

An experimental stitching study on the eve of high-NA EUV

An experimental stitching study on the eve of high-NA EUV

Full-field correction for stitched double exposure high-NA EUVL processes

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