Closed-Form representations for Third-Order aberrations of Two-Aspherical mirror aplanats with the mirror tilt and decenter

Mitsunori Toyoda

doi:10.1007/s10043-011-0083-2

Closed-Form representations for Third-Order aberrations of Two-Aspherical mirror aplanats with the mirror tilt and decenter

Mitsunori Toyoda

Research output: Contribution to journal › Article › peer-review

2 Citations (Scopus)

Abstract

Approximate equations are derived for imaging aberrations of two-aspherical-mirror aplanats for soft X-ray imaging. These expressions include the Seidel terms for unperturbed states and the axial coma resulting from the tilt and decenter of the mirror surface. A simple analytical method for reducing both the Seidel terms and the axial coma enables us to design novel soft X-ray imaging systems utilizing a wide field of view with reduced sensitivity to mirror misalignments. The method is illustrated by applying it to a two-mirror system for soft X-ray microscopy with a magnification m =-1/50. The design example showed an appreciable reduction in sensitivity, as compared with the existing anastigmatic designs that include a standard Schwarzschild configuration. Imaging aberrations of the novel system are also confirmed by a numerical ray tracing method.

Original language	English
Pages (from-to)	441-447
Number of pages	7
Journal	Optical Review
Volume	18
Issue number	6
DOIs	https://doi.org/10.1007/s10043-011-0083-2
Publication status	Published - 2011 Nov 1

Keywords

aplanat
aspherical mirror
axial coma
microscopy
misalignment
soft X-ray

ASJC Scopus subject areas

Atomic and Molecular Physics, and Optics

Access to Document

10.1007/s10043-011-0083-2

Cite this

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title = "Closed-Form representations for Third-Order aberrations of Two-Aspherical mirror aplanats with the mirror tilt and decenter",

abstract = "Approximate equations are derived for imaging aberrations of two-aspherical-mirror aplanats for soft X-ray imaging. These expressions include the Seidel terms for unperturbed states and the axial coma resulting from the tilt and decenter of the mirror surface. A simple analytical method for reducing both the Seidel terms and the axial coma enables us to design novel soft X-ray imaging systems utilizing a wide field of view with reduced sensitivity to mirror misalignments. The method is illustrated by applying it to a two-mirror system for soft X-ray microscopy with a magnification m =-1/50. The design example showed an appreciable reduction in sensitivity, as compared with the existing anastigmatic designs that include a standard Schwarzschild configuration. Imaging aberrations of the novel system are also confirmed by a numerical ray tracing method.",

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AU - Toyoda, Mitsunori

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N2 - Approximate equations are derived for imaging aberrations of two-aspherical-mirror aplanats for soft X-ray imaging. These expressions include the Seidel terms for unperturbed states and the axial coma resulting from the tilt and decenter of the mirror surface. A simple analytical method for reducing both the Seidel terms and the axial coma enables us to design novel soft X-ray imaging systems utilizing a wide field of view with reduced sensitivity to mirror misalignments. The method is illustrated by applying it to a two-mirror system for soft X-ray microscopy with a magnification m =-1/50. The design example showed an appreciable reduction in sensitivity, as compared with the existing anastigmatic designs that include a standard Schwarzschild configuration. Imaging aberrations of the novel system are also confirmed by a numerical ray tracing method.

AB - Approximate equations are derived for imaging aberrations of two-aspherical-mirror aplanats for soft X-ray imaging. These expressions include the Seidel terms for unperturbed states and the axial coma resulting from the tilt and decenter of the mirror surface. A simple analytical method for reducing both the Seidel terms and the axial coma enables us to design novel soft X-ray imaging systems utilizing a wide field of view with reduced sensitivity to mirror misalignments. The method is illustrated by applying it to a two-mirror system for soft X-ray microscopy with a magnification m =-1/50. The design example showed an appreciable reduction in sensitivity, as compared with the existing anastigmatic designs that include a standard Schwarzschild configuration. Imaging aberrations of the novel system are also confirmed by a numerical ray tracing method.

KW - aplanat

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KW - axial coma

KW - microscopy

KW - misalignment

KW - soft X-ray

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Closed-Form representations for Third-Order aberrations of Two-Aspherical mirror aplanats with the mirror tilt and decenter

Abstract

Keywords

ASJC Scopus subject areas

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