Development of compact extreme ultraviolet interferometry for on-line testing of lithography cameras

Avijit K. Ray-Chaudhuri; Rodney P. Nissen; Kevin D. Krenz; Richard H. Stulen; William C. Sweatt; Mial E. Warren; Joel R. Wendt; Stanley H. Kravitz; John E. Bjorkholm

Development of compact extreme ultraviolet interferometry for on-line testing of lithography cameras

Avijit K. Ray-Chaudhuri, Rodney P. Nissen, Kevin D. Krenz, Richard H. Stulen, William C. Sweatt, Mial E. Warren, Joel R. Wendt, Stanley H. Kravitz, John E. Bjorkholm

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

7 Scopus citations

Abstract

When characterizing an extreme ultraviolet (EUV) lithographic optical system, visible light interferometry is limited to measuring wavefront aberration caused by surface figure error while failing to measure wavefront errors induced by the multilayer coatings. This fact has generated interest in developing interferometry at an EUV camera's operational wavelength (at wavelength testing), which is typically around 13 nm. While a laser plasma source (LPS) is being developed as a lithography production source, it has generally been considered that only an undulator located at a synchrotron facility can provide the necessary laser-like point source for EUV interferometry. Although an undulator-based approach has been successfully demonstrated, it would be advantageous to test a camera in its operational configuration. We are developing the latter approach by utilizing extended source size schemes to provide usable flux throughput. A slit or a grating mounted in front of the source can provide the necessary spatial coherence for Ronchi interferometry. The usable source size is limited only by the well-corrected field of view of the camera under test. The development of this interferometer will be presented.

Original language	English (US)
Title of host publication	Proceedings of SPIE - The International Society for Optical Engineering
Pages	99-104
Number of pages	6
State	Published - 1995
Externally published	Yes
Event	Optical Manufacturing and Testing - San Diego, CA, USA Duration: Jul 9 1995 → Jul 11 1995

Publication series

Name	Proceedings of SPIE - The International Society for Optical Engineering
Volume	2536
ISSN (Print)	0277-786X

Other

Other	Optical Manufacturing and Testing
City	San Diego, CA, USA
Period	7/9/95 → 7/11/95

ASJC Scopus subject areas

Electronic, Optical and Magnetic Materials
Condensed Matter Physics
Computer Science Applications
Applied Mathematics
Electrical and Electronic Engineering

Cite this

Ray-Chaudhuri, A. K., Nissen, R. P., Krenz, K. D., Stulen, R. H., Sweatt, W. C., Warren, M. E., Wendt, J. R., Kravitz, S. H., & Bjorkholm, J. E. (1995). Development of compact extreme ultraviolet interferometry for on-line testing of lithography cameras. In Proceedings of SPIE - The International Society for Optical Engineering (pp. 99-104). (Proceedings of SPIE - The International Society for Optical Engineering; Vol. 2536).

Development of compact extreme ultraviolet interferometry for on-line testing of lithography cameras. / Ray-Chaudhuri, Avijit K.; Nissen, Rodney P.; Krenz, Kevin D. et al.
Proceedings of SPIE - The International Society for Optical Engineering. 1995. p. 99-104 (Proceedings of SPIE - The International Society for Optical Engineering; Vol. 2536).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Ray-Chaudhuri, AK, Nissen, RP, Krenz, KD, Stulen, RH, Sweatt, WC, Warren, ME, Wendt, JR, Kravitz, SH & Bjorkholm, JE 1995, Development of compact extreme ultraviolet interferometry for on-line testing of lithography cameras. in Proceedings of SPIE - The International Society for Optical Engineering. Proceedings of SPIE - The International Society for Optical Engineering, vol. 2536, pp. 99-104, Optical Manufacturing and Testing, San Diego, CA, USA, 7/9/95.

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title = "Development of compact extreme ultraviolet interferometry for on-line testing of lithography cameras",

abstract = "When characterizing an extreme ultraviolet (EUV) lithographic optical system, visible light interferometry is limited to measuring wavefront aberration caused by surface figure error while failing to measure wavefront errors induced by the multilayer coatings. This fact has generated interest in developing interferometry at an EUV camera's operational wavelength (at wavelength testing), which is typically around 13 nm. While a laser plasma source (LPS) is being developed as a lithography production source, it has generally been considered that only an undulator located at a synchrotron facility can provide the necessary laser-like point source for EUV interferometry. Although an undulator-based approach has been successfully demonstrated, it would be advantageous to test a camera in its operational configuration. We are developing the latter approach by utilizing extended source size schemes to provide usable flux throughput. A slit or a grating mounted in front of the source can provide the necessary spatial coherence for Ronchi interferometry. The usable source size is limited only by the well-corrected field of view of the camera under test. The development of this interferometer will be presented.",

author = "Ray-Chaudhuri, \{Avijit K.\} and Nissen, \{Rodney P.\} and Krenz, \{Kevin D.\} and Stulen, \{Richard H.\} and Sweatt, \{William C.\} and Warren, \{Mial E.\} and Wendt, \{Joel R.\} and Kravitz, \{Stanley H.\} and Bjorkholm, \{John E.\}",

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AB - When characterizing an extreme ultraviolet (EUV) lithographic optical system, visible light interferometry is limited to measuring wavefront aberration caused by surface figure error while failing to measure wavefront errors induced by the multilayer coatings. This fact has generated interest in developing interferometry at an EUV camera's operational wavelength (at wavelength testing), which is typically around 13 nm. While a laser plasma source (LPS) is being developed as a lithography production source, it has generally been considered that only an undulator located at a synchrotron facility can provide the necessary laser-like point source for EUV interferometry. Although an undulator-based approach has been successfully demonstrated, it would be advantageous to test a camera in its operational configuration. We are developing the latter approach by utilizing extended source size schemes to provide usable flux throughput. A slit or a grating mounted in front of the source can provide the necessary spatial coherence for Ronchi interferometry. The usable source size is limited only by the well-corrected field of view of the camera under test. The development of this interferometer will be presented.

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Development of compact extreme ultraviolet interferometry for on-line testing of lithography cameras

Abstract

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ASJC Scopus subject areas

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