Readiness of EUV Lithography for Insertion into Manufacturing: The IMEC EUV Program

Hendrickx, Eric; Gronheid, Roel; Hermans, Jan; Lorusso, Gian; Foubert, Philippe; Pollentier, Ivan; Goethals, Anne-Marie; Jonckheere, R.; Vandenberghe, Geert; Ronse, Kurt G.

doi:10.2494/photopolymer.26.587

Cited by 19 publications

(14 citation statements)

References 9 publications

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“…1 However, the key issue to solve, apart from the source power performance gap, still remains the reliable detection and repair of mask defects. 2,3 Actinic mask metrology, being regarded as an essential part of the EUV mask infrastructure, is a major challenge and methods beyond the state-of-the-art are needed.…”

Section: Introductionmentioning

confidence: 99%

Scanning coherent diffractive imaging methods for actinic EUV mask metrology

et al. 2016

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For the successful implementation of extreme ultraviolet (EUV) lithography in the upcoming technology nodes, a major challenge to overcome is the stable and reliable detection and characterization of mask defects. We have recently presented a reflective mode EUV mask scanning lensless imaging tool (RESCAN) which is installed at the XIL-II beamline of the Swiss Light Source and showed reconstructed aerial images of test patterns on EUV masks. RESCAN uses scanning coherent diffractive imaging (SCDI) methods to obtain actinic aerial images of EUV photomasks and was designed for 20 nm on-wafer resolution. Our SCDI algorithm reconstructs the measured sample by iteratively solving the phase-problem using over-determined diffraction data gathered by scanning across the specimen with a finite illumination. It provides phase and amplitude aerial images of EUV photomasks with high resolution without the need to use high NA (numerical aperture) lenses. Contrary to scanning microscopy and full-field microscopy, where the resolution is limited by the spot size or NA of the lens, the achievable resolution with our method depends on the detector noise and NA of the detector. To increase the resolution of our tool, we upgraded RESCAN with a new detector and algorithms. Here we present the results obtained with the new tool that is capable of up to 10 nm on-wafer resolution. We believe that the realization of our prototype marks a significant step towards overcoming the limitations imposed by methods relying on imaging optics and shows a viable solution for actinic mask metrology.

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Section: Introductionmentioning

confidence: 99%

Scanning coherent diffractive imaging methods for actinic EUV mask metrology

et al. 2016

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“…The fabrication of nano-scale patterns become more and more difficult as the semiconductor industry advance to more stringent pattern sizes in the sub-10 nm level [1][2][3][4]. Resist materials have played a large role in supporting these technological shifts into finer resolutions, while maintaining acceptable sensitivity and line width roughness/line edge roughness (LWR/LER).…”

Section: Introductionmentioning

confidence: 99%

In situ characterization of nano-scale pattern roughness during resist dissolution process

Santillan

Shichiri

Itani

2015

Microelectronic Engineering

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“…Extreme ultraviolet (EUV) lithography has been developed over the past decades and is considered the most promising technique for upcoming technology nodes with the industry getting ready for high-volume manufacturing. 1 One of the major challenges to be solved remains the reliable and high-throughput detection of mask defects. 2,3 Actinic mask metrology, being regarded as an essential part of the EUV mask infrastructure, is a major challenge and methods beyond the state-of-the-art are needed for patterned mask inspection.…”

Section: Introductionmentioning

confidence: 99%

A two-step method for fast and reliable EUV mask metrology

et al. 2017

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One of the major obstacles towards the implementation of extreme ultraviolet lithography for upcoming technology nodes in semiconductor industry remains the realization of a fast and reliable detection methods patterned mask defects. We are developing a reflective EUV mask-scanning lensless imaging tool (RESCAN), installed at the Swiss Light Source synchrotron at the Paul Scherrer Institut. Our system is based on a two-step defect inspection method. In the first step, a low-resolution defect map is generated by die to die comparison of the diffraction patterns from areas with programmed defects, to those from areas that are known to be defect-free on our test sample. In a later stage, a die to database comparison will be implemented in which the measured diffraction patterns will be compared to those calculated directly from the mask layout. This Scattering Scanning Contrast Microscopy technique operates purely in the Fourier domain without the need to obtain the aerial image and, given a sufficient signal to noise ratio, defects are found in a fast and reliable way, albeit with a location accuracy limited by the spot size of the incident illumination. Having thus identified rough locations for the defects, a fine scan is carried out in the vicinity of these locations. Since our source delivers coherent illumination, we can use an iterative phase-retrieval method to reconstruct the aerial image of the scanned area within principle-diffraction-limited resolution without the need of an objective lens. Here, we will focus on the aerial image reconstruction technique and give a few examples to illustrate the capability of the method.

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Readiness of EUV Lithography for Insertion into Manufacturing: The IMEC EUV Program

Cited by 19 publications

References 9 publications

Scanning coherent diffractive imaging methods for actinic EUV mask metrology

Scanning coherent diffractive imaging methods for actinic EUV mask metrology

In situ characterization of nano-scale pattern roughness during resist dissolution process

A two-step method for fast and reliable EUV mask metrology

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