Development of a combined interference microscope objective and scanning probe microscope

Tyrrell, James W. G.; Savio, Claudio Dal; Krüger-Sehm, Rolf; Danzebrink, Hans‐Ulrich

doi:10.1063/1.1687045

Cited by 12 publications

(10 citation statements)

References 13 publications

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“…The few and weak correlations encountered among nano and microroughness (Table ) suggest that both techniques give complementary information and thus it is of paramount concern to include two different scales. These results are in agreement with previous authors’ recommendations of using optical measuring methods such as white light interferometry to expand the AFM measuring range and to improve roughness measuring efficiency (Tyrrell et al ., ; Guo et al ., ). Therefore, in general S a ‐S ku ‐S mid at the nanoscale and S a ‐S z at the microscale are not correlated being confirmed the complementarity of both groups of parameters.…”

Section: Discussionmentioning

confidence: 99%

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Useful surface parameters for biomaterial discrimination

et al. 2015

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Topographical features of biomaterials' surfaces are determinant when addressing their application site. Unfortunately up to date there has not been an agreement regarding which surface parameters are more representative in discriminating between materials. Discs (n = 16) of different currently used materials for implant prostheses fabrication, such as cast cobalt-chrome, direct laser metal soldered (DLMS) cobalt-chrome, titanium grade V, zirconia (Y-TZP), E-glass fiber-reinforced composite and polyetheretherketone (PEEK) were manufactured. Nanoscale topographical surface roughness parameters generated by atomic force microscopy (AFM), microscale surface roughness parameters obtained by white light interferometry (WLI) and water angle values obtained by the sessile-water-drop method were analyzed in order to assess which parameter provides the best optimum surface characterization method. Correlations between nanoroughness, microroughness, and hydrophobicity data were performed to achieve the best parameters giving the highest discriminatory power. A subset of six parameters for surface characterization were proposed. AFM and WLI techniques gave complementary information. Wettability did not correlate with any of the nanoroughness parameters while it however showed a weak correlation with microroughness parameters.

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Section: Discussionmentioning

confidence: 99%

“…This method has been shown to be fast, non‐destructive and accurate. The combination of both techniques has been proposed to improve the measuring efficiency of AFM for the surface characterization of biomaterials (Tyrrell et al ., ; Guo et al ., ).…”

Section: Introductionmentioning

confidence: 99%

Useful surface parameters for biomaterial discrimination

et al. 2015

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“…Hierbei konnte die Über-A B C I I I I I I I I I EOMS 213 176 293 276 967 964 SFM 205 180 281 270 960 961 Tabelle 1: Ergebnisse der Messung der Kopflinienbreite von einzelnen (II) und mehrfachen (dichten) Si-Linien (I) mit unterschiedlichen nominellen Linienbreiten (A, B, C) unter Verwendung eines Niedervoltelektronenmikroskops (EOMS) und eines Rasterkraftmikroskops (SFM), entnommen aus [26]. in der PTB das Konzept eines multiskaligen Instrumentes realisiert, das den Millimeterbereich mit dem Nanometerbereich verknüpft [32].…”

Section: Kombiniertes Optisches Und Röntgeninterferometer ("Coxi") MIunclassified

Dimensionelle Nanometrologie in der PTB – eine Übersicht (Dimensional Nanometrology at PTB – a Survey)

Bosse¹,

Wilkening²

2006

Teme

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Die Nanotechnologie umfasst Applikationen, die im Wesentlichen auf physikalischen Phänomenen basieren, welche im Bereich von Dimensionen unterhalb 100 nm wirksam sind. Entsprechend betreffen die Messaufgaben, die in der Nanotechnologie durchzuführen sind, die Geometrie sowie andere physikalische und chemische Eigenschaften. Im Vergleich zum makroskopischen Bereich müssen hier Messungen eher holistisch gesehen werden: Die Dimensionen der Strukturen spielen immer eine wesentliche Rolle -auch wenn physikalische oder chemische Eigenschaften bestimmt werden sollen. Dieser Beitrag konzentriert sich auf den dimensionellen Aspekt. Metrologieinstitute arbeiten weltweit auf dem Gebiet der dimensionellen Nanometrologie. Dieser Beitrag stellt neuere Arbeiten der PTB auf diesem Gebiet vor. Er konzentriert sich dabei auf hoch auflösende Messgeräte mit großem Messbereich, auf das Modellieren von Sensor-Oberfläche-Wechselwirkungen, Geräte mit kombinierten Sensoren und geht auf neue Entwicklungen von Normalen ein.Schlagwörter: Nanotechnologie, Abmessungen, Sensor-Oberfläche-Wechselwirkung, Normale Dimensional Nanometrology at PTBa SurveyNanotechnology comprises applications based on physical phenomena active in dimensions below 100 nm. The respective measuring tasks in nanotechnology refer to the geometry and other physical and chemical characteristics. A more holistic approach is required as compared with the macroscopic range, since the spatial dimensions play a major role even for physical and chemical properties. This paper focuses on the aspects of physical dimensions. Metrology institutes are active worldwide in this area. We report on recent work of the PTB. The focus is on measuring systems with high resolutions and large measuring ranges, on the modelling of the sensor-surface-interactions, on apparatuses with combined sensors, and on recent developments of measurement standards.

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“…Producers of CD-masters and DVD-masters as well as integrated circuit manufacturers are using laser interferometers in the nanometer region. In national metrology institutes laser interferometers are popular in use as calibration aids to calibrate other sensors, or to develop new traceable measurement devices, such as atomic force microscopes [1,2]. In such institutes laser interferometers are also used as high precision scales in coordinate measuring machines (CMM's) [3].…”

Section: Introductionmentioning

confidence: 99%

Phase control of ellipsometric interferometer for nanometric positioning system

Chassagne

Topçu

et al. 2011

Sci. China Technol. Sci.

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Development in industry is asking for improved resolution and higher accuracy in dimensional metrology. In this paper, we proposed a control displacement method based on a polarization ellipsometirc interferometer and phase-locked loop technique. The proposed principle was set up. The experimental results of step and step displacements with a step value of 5 nm were presented. We also analyzed the resolution, the potential minimal displacement of the established system. The results show that the position error induced by the ellipticty deviation of the light beam becomes negligible thanks to our signal processing circuit with high-order filter. This method could be useful for many applications in nano dimensional metrology and semiconductor industry. ellipsometric interferometer, phase locked loop, nanometric position control, displacement monitoring Citation: Xu S A, Chassagne L, Topcu S, et al. Phase control of ellipsometric interferometer for nanometric positioning system.

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Development of a combined interference microscope objective and scanning probe microscope

Cited by 12 publications

References 13 publications

Useful surface parameters for biomaterial discrimination

Useful surface parameters for biomaterial discrimination

Dimensionelle Nanometrologie in der PTB – eine Übersicht (Dimensional Nanometrology at PTB – a Survey)

Phase control of ellipsometric interferometer for nanometric positioning system

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