A scanning wafer thickness and flatness interferometer

M.J. Jansen; H. Haitjema; P.H.J. Schellekens

doi:10.1117/12.515650

A scanning wafer thickness and flatness interferometer

M.J. Jansen
, H. Haitjema
, P.H.J. Schellekens

Mechanical Engineering

Onderzoeksoutput: Hoofdstuk in Boek/Rapport/Congresprocedure › Conferentiebijdrage › Academic › peer review

23 Citaten (Scopus)

565 Downloads (Pure)

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Since the wafer industry in using an increasing amount of double side polished wafers, the future of wafer metrology is very likely to shift from capacitance gauging techniques to optical measurement techniques. Participating in an international project the Technical University of Eindhoven is developing a self calibrating, traceable double side wafer flatness and thickness measurement device.By using proper measurement principles and advanced software a robust traceble wafer thickness measurement instrument is created which combines high lateral resolution, nanometer accuracy, high speed and low cost. The data analysis used in this scanning interferometer involves multiple phase extraction methods, newly developed robust unwrapping methods, surface stitching and smart measuring strategies for the application of software compensation techniques.

Originele taal-2	Engels
Titel	Optical fabrication, testing, and metrology : 30 September - 3 October 2003, St. Etienne, France
Redacteuren	R. Geyl, D. Rimmer, L. Wang
Plaats van productie	Bellingham
Uitgeverij	SPIE
Pagina's	334-345
DOI's	https://doi.org/10.1117/12.515650
Status	Gepubliceerd - 2003

Publicatie series

Naam	Proceedings of SPIE
Volume	5252
ISSN van geprinte versie	0277-786X

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abstract = "Since the wafer industry in using an increasing amount of double side polished wafers, the future of wafer metrology is very likely to shift from capacitance gauging techniques to optical measurement techniques. Participating in an international project the Technical University of Eindhoven is developing a self calibrating, traceable double side wafer flatness and thickness measurement device.By using proper measurement principles and advanced software a robust traceble wafer thickness measurement instrument is created which combines high lateral resolution, nanometer accuracy, high speed and low cost. The data analysis used in this scanning interferometer involves multiple phase extraction methods, newly developed robust unwrapping methods, surface stitching and smart measuring strategies for the application of software compensation techniques.",

author = "M.J. Jansen and H. Haitjema and P.H.J. Schellekens",

year = "2003",

doi = "10.1117/12.515650",

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A scanning wafer thickness and flatness interferometer. / Jansen, M.J.; Haitjema, H.; Schellekens, P.H.J.
Optical fabrication, testing, and metrology : 30 September - 3 October 2003, St. Etienne, France. reds. / R. Geyl; D. Rimmer; L. Wang. Bellingham: SPIE, 2003. blz. 334-345 (Proceedings of SPIE; Vol. 5252).

Onderzoeksoutput: Hoofdstuk in Boek/Rapport/Congresprocedure › Conferentiebijdrage › Academic › peer review

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N2 - Since the wafer industry in using an increasing amount of double side polished wafers, the future of wafer metrology is very likely to shift from capacitance gauging techniques to optical measurement techniques. Participating in an international project the Technical University of Eindhoven is developing a self calibrating, traceable double side wafer flatness and thickness measurement device.By using proper measurement principles and advanced software a robust traceble wafer thickness measurement instrument is created which combines high lateral resolution, nanometer accuracy, high speed and low cost. The data analysis used in this scanning interferometer involves multiple phase extraction methods, newly developed robust unwrapping methods, surface stitching and smart measuring strategies for the application of software compensation techniques.

AB - Since the wafer industry in using an increasing amount of double side polished wafers, the future of wafer metrology is very likely to shift from capacitance gauging techniques to optical measurement techniques. Participating in an international project the Technical University of Eindhoven is developing a self calibrating, traceable double side wafer flatness and thickness measurement device.By using proper measurement principles and advanced software a robust traceble wafer thickness measurement instrument is created which combines high lateral resolution, nanometer accuracy, high speed and low cost. The data analysis used in this scanning interferometer involves multiple phase extraction methods, newly developed robust unwrapping methods, surface stitching and smart measuring strategies for the application of software compensation techniques.

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DO - 10.1117/12.515650

M3 - Conference contribution

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BT - Optical fabrication, testing, and metrology : 30 September - 3 October 2003, St. Etienne, France

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ER -

A scanning wafer thickness and flatness interferometer

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