Pushing the limits of EUV mask repair: addressing sub-10 nm defects with the next generation e-beam-based mask repair tool

Heil, Tilmann; Waldow, Michael; Capelli, Renzo; Schneider, H.; Ahmels, Laura; Tu, Fan; Schöneberg, Johannes; Marbach, Hubertus

doi:10.1117/1.jmm.20.3.031013

Cited by 6 publications

(6 citation statements)

References 30 publications

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“…During the processing of masks, certain amounts of defects can be produced, which then requires the defect repair and inspection. Currently, the EUV mask relies on electron beam induced deposition and etching (EBID/EBIE) due to shrinking feature sizes 21 . With new APSM absorber material, the corresponding repair material should also satisfy the optical criteria, while this requires the selection of precursor molecules that can produce precise additive deposition and substrative etching to repair the mask.…”

Section: Process Challengesmentioning

confidence: 99%

EUV APSM mask prospects and challenges

Lin,

Lee,

Chen

et al. 2023

Photomask Technology 2023

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Section: Process Challengesmentioning

confidence: 99%

EUV APSM mask prospects and challenges

Lin,

Lee,

Chen

et al. 2023

Photomask Technology 2023

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“…The stringent demands for defect-free reflective photomasks in particular present challenges to its widespread adoption. Nevertheless, with anticipated technological advances aiming to enhance simplicity and reduce costs in these systems, the resolution remains advantageous for biomedical applications such as nanofluidics [ 116 , 117 ].…”

Section: Conventional Lithographic Techniquesmentioning

confidence: 99%

Advances in lithographic techniques for precision nanostructure fabrication in biomedical applications

Stokes,

Clark,

Odetade

et al. 2023

Discover Nano

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Nano-fabrication techniques have demonstrated their vital importance in technological innovation. However, low-throughput, high-cost and intrinsic resolution limits pose significant restrictions, it is, therefore, paramount to continue improving existing methods as well as developing new techniques to overcome these challenges. This is particularly applicable within the area of biomedical research, which focuses on sensing, increasingly at the point-of-care, as a way to improve patient outcomes. Within this context, this review focuses on the latest advances in the main emerging patterning methods including the two-photon, stereo, electrohydrodynamic, near-field electrospinning-assisted, magneto, magnetorheological drawing, nanoimprint, capillary force, nanosphere, edge, nano transfer printing and block copolymer lithographic technologies for micro- and nanofabrication. Emerging methods enabling structural and chemical nano fabrication are categorised along with prospective chemical and physical patterning techniques. Established lithographic techniques are briefly outlined and the novel lithographic technologies are compared to these, summarising the specific advantages and shortfalls alongside the current lateral resolution limits and the amenability to mass production, evaluated in terms of process scalability and cost. Particular attention is drawn to the potential breakthrough application areas, predominantly within biomedical studies, laying the platform for the tangible paths towards the adoption of alternative developing lithographic technologies or their combination with the established patterning techniques, which depends on the needs of the end-user including, for instance, tolerance of inherent limits, fidelity and reproducibility.

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“…In recent work, the Zeiss AIMS ® EUV was successfully used to qualify the effective repair of programmed 2.25 nm (1x) extrusions for a P44 L/S 1:1 pattern. 8 Despite the effective repair, it was not clear whether that extrusion would have led to a defect at wafer level and whether repair was needed after all.…”

Section: Introductionmentioning

confidence: 99%

EUV mask defect inspection for the 3nm technology node

Hermans,

Heil,

Capelli

et al. 2023

38th European Mask and Lithography Conference (EMLC 2023)

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Pushing the limits of EUV mask repair: addressing sub-10 nm defects with the next generation e-beam-based mask repair tool

Cited by 6 publications

References 30 publications

EUV APSM mask prospects and challenges

EUV APSM mask prospects and challenges

Advances in lithographic techniques for precision nanostructure fabrication in biomedical applications

EUV mask defect inspection for the 3nm technology node

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