Increasing aperture and depth of field simultaneously with wavefront coding technology

Haoyuan Du; Liquan Dong; Ming Liu; Yuejin Zhao; Yijian Wu; Xueyan Li; Wei Jia; Xiaohua Liu; Mei Hui; Lingqin Kong

doi:10.1364/AO.58.004746

Increasing aperture and depth of field simultaneously with wavefront coding technology

Haoyuan Du, Liquan Dong^*, Ming Liu, Yuejin Zhao, Yijian Wu, Xueyan Li, Wei Jia, Xiaohua Liu, Mei Hui, Lingqin Kong

^*Corresponding author for this work

School of Optics and Photonics

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

3 Citations (Scopus)

Abstract

We present a method that simultaneously increases the aperture and depth of field (DOF). A novel, to the best of our knowledge, method called lens-combined wavefront coding (WFC) is proposed for optical design. By rationally balancing rather than minimizing the aberrations, the DOF enhances instead of reduces with expansion of the aperture size. Two optical systems by traditional design and lens-combined WFC are designed to demonstrate our concept. Experiments are conducted using the manufactured lenses to show the extension of the DOF both in the laboratory and the real scene. A spatially invariant deconvolution algorithm is exploited to further suppress the aberrations regarding the field of view. The results show that the aperture and the DOF can be successfully enhanced at the same time.

Original language	English
Pages (from-to)	4746-4752
Number of pages	7
Journal	Applied Optics
Volume	58
Issue number	17
DOIs	https://doi.org/10.1364/AO.58.004746
Publication status	Published - 10 Jun 2019

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title = "Increasing aperture and depth of field simultaneously with wavefront coding technology",

abstract = "We present a method that simultaneously increases the aperture and depth of field (DOF). A novel, to the best of our knowledge, method called lens-combined wavefront coding (WFC) is proposed for optical design. By rationally balancing rather than minimizing the aberrations, the DOF enhances instead of reduces with expansion of the aperture size. Two optical systems by traditional design and lens-combined WFC are designed to demonstrate our concept. Experiments are conducted using the manufactured lenses to show the extension of the DOF both in the laboratory and the real scene. A spatially invariant deconvolution algorithm is exploited to further suppress the aberrations regarding the field of view. The results show that the aperture and the DOF can be successfully enhanced at the same time.",

author = "Haoyuan Du and Liquan Dong and Ming Liu and Yuejin Zhao and Yijian Wu and Xueyan Li and Wei Jia and Xiaohua Liu and Mei Hui and Lingqin Kong",

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T1 - Increasing aperture and depth of field simultaneously with wavefront coding technology

AU - Du, Haoyuan

AU - Dong, Liquan

AU - Liu, Ming

AU - Zhao, Yuejin

AU - Wu, Yijian

AU - Li, Xueyan

AU - Jia, Wei

AU - Liu, Xiaohua

AU - Hui, Mei

AU - Kong, Lingqin

PY - 2019/6/10

Y1 - 2019/6/10

N2 - We present a method that simultaneously increases the aperture and depth of field (DOF). A novel, to the best of our knowledge, method called lens-combined wavefront coding (WFC) is proposed for optical design. By rationally balancing rather than minimizing the aberrations, the DOF enhances instead of reduces with expansion of the aperture size. Two optical systems by traditional design and lens-combined WFC are designed to demonstrate our concept. Experiments are conducted using the manufactured lenses to show the extension of the DOF both in the laboratory and the real scene. A spatially invariant deconvolution algorithm is exploited to further suppress the aberrations regarding the field of view. The results show that the aperture and the DOF can be successfully enhanced at the same time.

AB - We present a method that simultaneously increases the aperture and depth of field (DOF). A novel, to the best of our knowledge, method called lens-combined wavefront coding (WFC) is proposed for optical design. By rationally balancing rather than minimizing the aberrations, the DOF enhances instead of reduces with expansion of the aperture size. Two optical systems by traditional design and lens-combined WFC are designed to demonstrate our concept. Experiments are conducted using the manufactured lenses to show the extension of the DOF both in the laboratory and the real scene. A spatially invariant deconvolution algorithm is exploited to further suppress the aberrations regarding the field of view. The results show that the aperture and the DOF can be successfully enhanced at the same time.

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Increasing aperture and depth of field simultaneously with wavefront coding technology

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