Extended Nijboer–Zernike approach to aberration and birefringence retrieval in a high-numerical-aperture optical system

We present details of a novel imaging algorithm based on the extended Nijboer-Zernike (ENZ) theory of diffraction. We derive integral expressions relating the electric field distribution in the entrance pupil of an optical system to the electric field in its focal region. The evaluation of these integrals is made possible by means of a highly accurate and efficient series expansion similar to those occurring in standard ENZ theory. Based on these results an ENZ imaging scheme is constructed and evaluated in detail with attention to the convergence properties and computational complexity of the new method.

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“…In contrast to earlier publications (for instance, [37][38][39]) Eq. (29) has the factor ͑−i͒ m instead of i m .…”

Section: ͑30͒contrasting

confidence: 58%

Vectorial aerial-image computations of three-dimensional objects based on the extended Nijboer-Zernike theory

et al. 2009

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“…In the case of an aberration-free optical system we find the following expression for the Strehlintensity [67] …”

Section: The Definition and Calculation Of Strehl Intensity In The mentioning

confidence: 99%

High-density optical data storage

Nes¹,

Braat²,

Pereira³

2006

Rep. Prog. Phys.

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Since the introduction of optical data storage systems in the 1970s, we have observed a stepwise increase in their storage capacity using the same means for resolution improvement as in classical microscopy and optical lithography, namely, a reduction in the source wavelength and an increase in the numerical aperture of the imaging optics. In this paper we briefly address the historical development of optical data storage and some recent developments towards higher density such as non-linear recording methods and systems with a numerical aperture larger than unity. More specifically, we explore the possibility of storing more information bits per storage location so that optical 'multiplexing' becomes feasible. A multiplexing method based on the detection of optical angular momentum of a focused light beam is treated in detail and is illustrated with some examples of preliminary experiments on this subject. Both the existing high-density systems and the proposed new ones require a detailed analysis of the focusing of the scanning spot and the diffraction by the information structure on the disc. We analyse electromagnetic focusing in multilayers and treat the diffraction of light by optical effects using a three-dimensional form of Green's tensor formalism.

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“…ENZ achieves a reproducibility of about 1mλ. The ENZ-method is not only applicable to low-and-medium-NA lenses, but can be used for very high-NA lenses 2,3 as well.…”

Section: Flzeaumentioning

confidence: 99%

Aerial image based lens metrology for wafer steppers

et al. 2006

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Phase Measurement Interferometers (PMI) are widely used during the manufacturing process of high quality lenses. Although they have an excellent reproducibility and sensitivity, the set-up is expensive and the accuracy of the measurement needs to be checked frequently.This paper discusses an alternative lens metrology method that is based on an aerial image measurement. We discuss the Extended Nijboer-Zernike (ENZ) method and its application to aberration measurement of a high-NA optical system of a wafer stepper. ENZ is based on the observation of the through-focus intensity point-spread function of the projection lens. The advantage of ENZ is a simple set-up that is easy to run and maintain and provides good accuracy. Therefore the method is useful during lens assembly in the factory.The mathematical framework of ENZ is shown and the experimental procedure to extract aberrations for a high-NA lens is demonstrated on a high-NA DUV lithographic lens. PMI data is given as reference data. It is shown that ENZ provides an attractive alternative to the interferometer.

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Extended Nijboer–Zernike approach to aberration and birefringence retrieval in a high-numerical-aperture optical system

Cited by 35 publications

References 32 publications

Vectorial aerial-image computations of three-dimensional objects based on the extended Nijboer-Zernike theory

Vectorial aerial-image computations of three-dimensional objects based on the extended Nijboer-Zernike theory

High-density optical data storage

Aerial image based lens metrology for wafer steppers

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