Off-axis Two-mirror System with Wide Field of View Based on Diffractive Mirror

Meng, Qingyu; Dong, Junping; Wang, Dong; Liang, Wei

doi:10.3807/josk.2015.19.6.604

Journal of the Optical Society of Korea

2015

DOI: 10.3807/josk.2015.19.6.604

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Off-axis Two-mirror System with Wide Field of View Based on Diffractive Mirror

Qingyu Meng

Junping Dong

Dong Wang

et al.

Abstract: An unobstructed off-axis two-mirror system is presented in this paper. First a suitable initial configuration is established based on third-order aberration theory. In order to achieve a wide field of view (FOV) with high image quality , the diffractive mirror is adopted in the two-mirror system to increase the optimization freedom and the aberration relationship between diffractive phase coefficients and Zernike coefficients is derived. Furthermore, a complete comparison design example with a focal length of … Show more

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Cited by 3 publications

References 15 publications

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Reflective Toraldo pupil for high-resolution millimeter-wave astronomy

Shitvov¹,

Pisano²,

Olmi³

et al. 2020

Appl. Opt.

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A novel, to the best of our knowledge, beam-shaping reflective surface for high-resolution millimeter/submillimeter-wave astronomy instruments is presented. The reflector design is based on Toraldo’s super-resolution principle and implemented with annulated binary-phase coronae structure inspired by the achromatic magnetic mirror approach. A thin, less than half a free-space wavelength, reflective Toraldo pupil device operated in the W-band has been fabricated using mesh-filter technology developed at Cardiff University. The device has been characterized on a quasi-optical test bench and demonstrated expected reduction of the beam width upon reflection at oblique incidence, while featuring a sidelobe level lower than − 10 d B . The proposed reflective Toraldo pupil structure can be easily scaled for upper millimeter and infrared frequency bands as well as designed to transform a Gaussian beam into a flat-top beam with extremely low sidelobe level.

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Reflective Toraldo pupil for high-resolution millimeter-wave astronomy

Shitvov¹,

Pisano²,

Olmi³

et al. 2020

Appl. Opt.

View full text Add to dashboard Cite

show abstract

Off-axis three-mirror freeform telescope with a large linear field of view based on an integration mirror

Meng

Wang

et al. 2016

Appl. Opt.

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We report on the design of an off-axis three-mirror freeform telescope with a large field of view (FOV) based on an integration mirror (IM). This design is the continuation of the authors' previous work. Based on aberration theory, we established a suitable nonrelayed three-mirror-anastigmat initial configuration for integration mirror design. For an optical freeform surface, we analyzed the qualitative aberration correction ability of a x-y polynomial surface that can provide a simple, convenient, and user-friendly relationship between freeform surface term coefficients and aberrations and then applied the x-y polynomial surface on the tertiary mirror to improve the system optimization degrees of freedom. In an example with a focal length of 1200 mm, an F-number of 12, and a FOV of 1°×30°, the tolerance performance was analyzed, and the system presented a good imaging performance. In addition, the IM structure and opto-mechanics support structure were designed and analyzed. The confirmatory design results showed that the integration of the primary mirror and tertiary mirror can improve opto-mechanical properties judged by multiple criteria. In conclusion, the integration of the primary mirror and tertiary mirror not only offers alignment convenience as described previously but also improves system opto-mechanical properties in multiple perspectives. We believe this large linear FOV system based on IM has broad future applications in the optical remote sensing field.

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Complex object wave extraction using time-multiplexing in off-axis digital holography

et al. 2017

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In this paper, we present an algorithm for complex object wave extraction in off-axis digital holography using a time-multiplexing and frequency spectrum-shifting technique. The proposed approach utilizes the digital time-multiplexing technique, in which two 90-deg-rotated off-axis holograms are recorded in sequence, and corresponding spectra are subtracted in the computed Fourier domain to eliminate the DC term. Then, the two subtracted holograms are digitally multiplexed into one complex hologram in the same plane, and by shifting the spatial frequency spectra of the subtracted hologram in the spatial frequency domain, one of the two cross-correlations can be obtained in the center. This technique simply extracts the spectrum of the real image in the frequency domain than the spatial filtering method.

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Off-axis Two-mirror System with Wide Field of View Based on Diffractive Mirror

Cited by 3 publications

References 15 publications

Reflective Toraldo pupil for high-resolution millimeter-wave astronomy

Reflective Toraldo pupil for high-resolution millimeter-wave astronomy

Off-axis three-mirror freeform telescope with a large linear field of view based on an integration mirror

Complex object wave extraction using time-multiplexing in off-axis digital holography

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