A Method to Increase the Field of View of an Imaging Optical System

Abstract: The Y field of view of an off-axis optical system is generally less than 1°. Scholars usually use a freeform surface to achieve a rectangular field of view imaging. However, it adds to the difficulty of processing, testing, assembling, and adjusting, and at the same time has the drawbacks of high manufacturing costs and long processing cycles. In view of the above problems, this paper presents a computational imaging design method for expanding the Y field of view of an off-axis optical system. This method ana… Show more

“…Recently, significant advances in computational imaging have been reported, and a design method combining optical design and computational imaging has been proposed to overcome the problems of traditional imaging [13]- [16]. For example, the field of vision of on-axis and off-axis systems can be increased, the diffraction efficiency of refraction diffraction hybrid optical systems can be improved, and the achromatism of simple optical systems can be realized [17]- [20].…”

Optical-Digital Integrated Design Method for Near-Eye Display Imaging System

“…Recently, significant advances in computational imaging have been reported, and a design method combining optical design and computational imaging has been proposed to overcome the problems of traditional imaging [13]- [16]. For example, the field of vision of on-axis and off-axis systems can be increased, the diffraction efficiency of refraction diffraction hybrid optical systems can be improved, and the achromatism of simple optical systems can be realized [17]- [20].…”

Optical-Digital Integrated Design Method for Near-Eye Display Imaging System

Optical-digital joint design method for Cassegrain optical system with large FOV