Manifestation of Gouy phase anomaly in a coaxial focus array generated by a Dammann zone plate

Yu, Junjie; Zhou, Changhe; Jia, Wei; Wu, Jun; Lu, Yunqing

doi:10.1364/josaa.31.001059

J. Opt. Soc. Am. A

2014

DOI: 10.1364/josaa.31.001059

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Manifestation of Gouy phase anomaly in a coaxial focus array generated by a Dammann zone plate

Junjie Yu

Changhe Zhou

Wei Jia

et al.

Abstract: Gouy phase anomaly of the coaxial focus array generated by a Dammann zone plate (DZP) was investigated. Based on Debye vectorial diffraction theory, the longitudinal-differential (LD) phase profile was presented in the focal region of a high numerical aperture aplanatic objective with a DZP located before as the pupil filter. The numerical simulations show that there is a Gouy phase shift exactly located at the position of every diffraction order along the axial direction. Besides the well-known Gouy phase, a … Show more

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Cited by 2 publications

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Array illumination of a Fresnel–Dammann zone plate

et al. 2016

Appl. Opt.

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The traditional Dammann grating is a phase-only modulation, and its theoretical foundation is based on far-field diffraction. Here we extend the traditional Fresnel zone plate (FZP) into a Fresnel-Dammann zone plate (FDZP), which is, in essence, considered as a FZP with Dammann modulation. Different from the Dammann grating, a single FDZP can generate array illumination from the near field to the far field by means of amplitude-only modulation in the absence of phase modulation. We then give some array illuminations operated in a water window to validate the feasibility and validity. This kind of wave-front modulation technology can be applied to array focusing and imaging from the x-ray to the EUV region.

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Array illumination of a Fresnel–Dammann zone plate

et al. 2016

Appl. Opt.

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Effect of coating-induced polarization aberrations on the focusing properties in high numerical aperture optical system

Li¹,

Xiang²,

Zhao-Yi³

et al. 2015

Acta Phys. Sin.

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The incident angles of the optical systems with high numerical apertures, such as lithography or microscope, are larger than those of normal ones. For these systems, polarized illumination is widely adopted. The coatings on their surfaces will make s and p polarization components of oblique incident light experience diverse amplitudes and phase modulations, and induce extra polarization aberrations. We apply the vectorial diffraction theory to assess the effects of coating-induced polarization aberrations on the focusing properties of these systems. By applying the generalized Debye integral, the relationship between the parameters of coating and electric field vector near the focal spot is established. Considering x linearly polarized light as the incident light field, we evaluate the potential influence of the coatings on the intensity and the full width at half maxium of focal spots. In the further discussion, we compare the results of different coatings when the various optimization goals are set, and certify that the phase difference caused by coating has more effect on focusing property. Based on this, the additional constraint conditions of coating design are proposed to suppress such disturbance, i.e. to properly increase relative weight of phase constraint conditions. With this proposed constraint conditions, we design and optimize an anti-reflection coating with low polarization aberrations. By applying this designing, the central intensity of focal spot can be enhanced by 12.5%, and the light energy utilization will be improved effectively.

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Manifestation of Gouy phase anomaly in a coaxial focus array generated by a Dammann zone plate

Cited by 2 publications

References 24 publications

Array illumination of a Fresnel–Dammann zone plate

Array illumination of a Fresnel–Dammann zone plate

Effect of coating-induced polarization aberrations on the focusing properties in high numerical aperture optical system

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