Construction of freeform mirrors for an off-axis telecentric scanning system through multiple surfaces expansion and mixing
Autor: | Jianping Zhang, Xin Cao, Lingjie Wang, Jingfei Ye, Zhishan Gao, Ningyan Xu, Lu Chen, Qun Yuan |
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Rok vydání: | 2020 |
Předmět: |
010302 applied physics
Surface (mathematics) Materials science Plane (geometry) business.industry Distortion (optics) Base (geometry) Optical design Off-axis telecentric General Physics and Astronomy Field of view 02 engineering and technology 021001 nanoscience & nanotechnology 01 natural sciences Scanning system lcsh:QC1-999 Primary mirror Optics Freeform mirrors Mixing (mathematics) 0103 physical sciences Surface contour 0210 nano-technology business lcsh:Physics |
Zdroj: | Results in Physics, Vol 19, Iss, Pp 103354-(2020) |
ISSN: | 2211-3797 |
Popis: | In this paper, a direct design method for an off-axis two-mirror telecentric scanning system with a linear field of view (FOV) is proposed. A single freeform mirror structure is firstly considered, in which the aberration free geometry of the off-axis parabolic (OAP) surface is leveraged to provide the focusing function and build surface contour of the sub-region on the mirror for each FOV. Multiple OAP surfaces for construction of the freeform mirror are located at an OAP base to satisfy the telecentric condition. The imaging distortion of this single freeform mirror structure is analyzed and found unavoidable due to the unsymmetrical geometry of the OAP base. A freeform reflective corrector is supplemented, and it is constructed from multiple plane surfaces located at a curved base to fulfill the f-theta scanning geometry. Thus, a two-mirror structure composed of one freeform primary mirror and one freeform reflective corrector is established. Each plane-OAP surfaces pair corresponds to a specific FOV. These multiple OAP surfaces and multiple plane surfaces are then expanded and mixed respectively, to construct the freeform primary mirror and freeform reflective corrector. An f-theta two-mirror freeform scanning system with ± 10.4° linear FOV is designed using the proposed construction method. The design result is diffraction-limited, and a scanning error less than 5 μm and telecentricity angle less than 0.2° are achieved. |
Databáze: | OpenAIRE |
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