2021
DOI: 10.1002/smll.202105776
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Simultaneous Dimensional and Analytical Characterization of Ordered Nanostructures

Abstract: The spatial and compositional complexity of 3D structures employed in today's nanotechnologies has developed to a level at which the requirements for process development and control can no longer fully be met by existing metrology techniques. For instance, buried parts in stratified nanostructures, which are often crucial for device functionality, can only be probed in a destructive manner in few locations as many existing nondestructive techniques only probe the objects surfaces. Here, it is demonstrated that… Show more

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Cited by 17 publications
(19 citation statements)
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“…This is achieved by tuning the incoming photon energy above the corresponding absorption edges of the involved materials (Ti, Cr), in contrast to methods that use an energy-dispersive detector. 17 The nanostructures are more complex than what can be described in terms of simple geometric shapes such as rectangles or trapezoids. A parametrization of such a line shape is also not trivial and would have to be oriented more to the process variations to be expected in production.…”
Section: Discussionmentioning
confidence: 99%
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“…This is achieved by tuning the incoming photon energy above the corresponding absorption edges of the involved materials (Ti, Cr), in contrast to methods that use an energy-dispersive detector. 17 The nanostructures are more complex than what can be described in terms of simple geometric shapes such as rectangles or trapezoids. A parametrization of such a line shape is also not trivial and would have to be oriented more to the process variations to be expected in production.…”
Section: Discussionmentioning
confidence: 99%
“…The field inside the TiO 2 and Cr is extracted, and the square of the absolute value, which is the field intensity, is compared to the experimental data from the area detector because it is proportional to the emitted fluorescence of the material. 17,38 The principle of microscopic reversibility allows using GEXRF calculation tools developed for GIXRF by setting the photon energy of interest to that of the fluorescence photons instead of that of the incident photons. 13 The emitted fluorescence photon is considered an incoming photon with the fluorescence energy of the titanium K α line and the direction of the area detector pixel.…”
Section: Modellingmentioning
confidence: 99%
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“…The GEXRF approaches have been successfully explored for more than two decades at various large-scale facilities and in academic laboratories [75][76][77][78][79][80][81], in particular regarding the characterization of nanolayered systems. To complement angular GIXRF studies [22,72] and related reconstruction works on nanostructures [73], GEXRF also allows for the scanning-free detection of the angular distribution of fluorescence radiation emitted by a nanostructure using position-sensitive detectors such as CCDs or CMOS devices [82].…”
Section: Hybrid Metrology-determination Of Dimensional and Analytical...mentioning
confidence: 99%
“…We propose synchrotron-radiation-based reference-free X-ray fluorescence (RF-XRF), under grazing incidence conditions (GIXRF) [13], as schematized in figure 1a, to quantify the surface density of a molecular species adsorbed on the surface of a plasmonic metal by identifying a distinguishable target element with atomic number Z higher than 9 in the molecular structure. Indeed, the target element needs to have a detectable characteristic X-ray fluorescence line with well-known atomic fundamental parameters (FPs) and it should be different from the typical constituents of the molecules (C, N, O).…”
mentioning
confidence: 99%