The European nanometrology landscape

Leach, Richard; Boyd, Robert; Burke, T. M.; Danzebrink, Hans‐Ulrich; Dirscherl, Kai; Dziomba, Thorsten; Gee, M.G.; Koenders, Ludger; Morazzani, Valérie; Pidduck, Allan; Roy, Debdulal; Unger, Wolfgang; Yacoot, Andrew

doi:10.1088/0957-4484/22/6/062001

Cited by 77 publications

(38 citation statements)

References 92 publications

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“…What all these different applications have in common is the need for suitable metrology tools to measure surface and subsurface structural parameters with sufficient accuracy, which is the field of dimensional nanometrology [19,20]. Although there is a large variety of different techniques available, ranging from direct methods like criticaldimension electron microscopy (CD-SEM) [21,22] and atomic force microscopy (AFM) [23,24] to indirect methods like X-ray small-angle scattering (SAXS) and grazing in- * contact: jan.wernecke@ptb.de cidence SAXS (GISAXS) [25][26][27], critical dimension SAXS (CD-SAXS) [28][29][30], or extreme UV (EUV) scatterometry [31,32], all of them have very specific advantages and drawbacks.…”

Section: Introductionmentioning

confidence: 99%

Traceable GISAXS measurements for pitch determination of a 25 nm self-assembled polymer grating

et al. 2014

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The feature sizes of only a few nanometers in modern nanotechnology and next-generation microelectronics continually increase the demand for suitable nanometrology tools. Grazing incidence small-angle X-ray scattering (GISAXS) is a versatile technique to measure lateral and vertical sizes in the nm-range, but the traceability of the obtained parameters, which is a prerequisite for any metrological measurement, has not been demonstrated so far. In this work, the first traceable GISAXS measurements, demonstrated with a self-assembled block copolymer grating structure with a nominal pitch of 25 nm, are reported. The different uncertainty contributions to the obtained pitch value of 24.83(9) nm are discussed individually. The main uncertainty contribution results from the sample-detector distance and the pixel size measurement, whereas the intrinsic asymmetry of the scattering features is of minor relevance for the investigated grating structure. The uncertainty analysis provides a basis for the evaluation of the uncertainty of GISAXS data in a more general context, for example in numerical data modeling.

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Section: Introductionmentioning

confidence: 99%

Traceable GISAXS measurements for pitch determination of a 25 nm self-assembled polymer grating

et al. 2014

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“…stability of matrix, type of bond, end-of-life behavior) Overall, despite the availability of an impressive number of microscopies and related techniques, there are many metrological issues that have to be yet better defined at the nanoscale. Nanometrology is a key enabling technology for quality control at the nanoscale and, in the last years, many governments worldwide have promoted nanotechnology policies and have taken the preliminary steps towards nanometrology strategies, for example in support of pre-normative R&D and standardization work (Leach et al, 2011).…”

Section: Indicators Of Potential Toxicitymentioning

confidence: 99%

Scientific basis of nanotechnology, implications for the food sector and future trends

Rossi

Cubadda

Dini

et al. 2014

Trends in Food Science & Technology

119

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Nanotechnologies are opening up new horizons in almost all scientific and technological fields. Among these, applications of nanotechnologies are expected to bring large benefits and add value to the food and food-related industries through the whole food chain, from production to processing, safety, packaging, transportation, storage and delivery. Nanotechnology consists in the realization and manipulation of nano-sized matter, the unique properties of which with respect to their bulk counterparts are illustrated and discussed. Then, the main tools and techniques routinely used in nanotechnology for the nanoscale characterization of food matrices as well as for the analytical determination of nanomaterials in food samples are reviewed. Finally, safety and risk assessment issues are discussed and an overview of applications of nanotechnology to the food sector is provided along with a description of the current regulatory framework.

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“…The concept of instrumentation for nanometrology has resulted in the combination of a microscope with a measuring system capable of delivering the accuracy and precision needed on the nanoscale with traceability to the primary length standard. The standard configuration consists of a scanning probe microscope (SPM) and a coordinate multiaxis positioning system which moves the stage with a sample with interferometric measurement of displacement [1], [2].…”

Section: Introductionmentioning

confidence: 99%

Contribution of the Refractive Index Fluctuations to the Length Noise in Displacement Interferometry

Holá

Hrabina

Šarbort

et al. 2015

Measurement Science Review

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We report on investigations of how fast changes of the refractive index influence the uncertainty of interferometric displacement measurements. Measurement of position within a limited range is typical for precise positioning of coordinate measuring systems, such as nanometrology standards combined with scanning probe microscopy (SPM). The varying refractive index of air contributes significantly to the overall uncertainty; it plays a role especially in case of longer-range systems. In our experiments we have observed that its fast variations, seen as length noise, are not linearly proportional to the measuring beam path and play a significant role only over distances longer than 50 mm. Thus, we found that over longer distances the length noise rises proportionally. The measurements were performed under conditions typical for metrology SPM systems.

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The European nanometrology landscape

Cited by 77 publications

References 92 publications

Traceable GISAXS measurements for pitch determination of a 25 nm self-assembled polymer grating

Traceable GISAXS measurements for pitch determination of a 25 nm self-assembled polymer grating

Scientific basis of nanotechnology, implications for the food sector and future trends

Contribution of the Refractive Index Fluctuations to the Length Noise in Displacement Interferometry

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