Fish-eye lens system design based on sixth-order wave aberration theory

Guozhu Hou; Lijun Lv; Yiqing Cao

doi:10.3788/IRLA20200505

Journals >Infrared and Laser Engineering >Volume 50 >Issue 6 >Page 20200505 > Article

Infrared and Laser Engineering
Vol. 50, Issue 6, 20200505 (2021)

Fish-eye lens system design based on sixth-order wave aberration theory

Guozhu Hou^1、2, Lijun Lv², and Yiqing Cao³

Author Affiliations

¹Industrial Technology Center, Shanghai Dianji University, Shanghai 201306, China

²Department of Precision Mechanical Engineering, Shanghai University, Shanghai 200444, China

³School of Mechanical and Electrical Engineering, Putian University, Putian 351100, China

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DOI: 10.3788/IRLA20200505 Cite this Article

Guozhu Hou, Lijun Lv, Yiqing Cao. Fish-eye lens system design based on sixth-order wave aberration theory[J]. Infrared and Laser Engineering, 2021, 50(6): 20200505 Copy Citation Text

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Optical scheme of an aperture ray P0P1P2 passing through a double-element optical system

Fig. 1. Optical scheme of an aperture ray P₀P₁P₂ passing through a double-element optical system

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Fig. 2. Coordinate systems of the wave surface and the image plane in the reverse optical path of a double-element optical system

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Fig. 3. Flow chart of fish-eye lens system design using the sixth-order wave aberration theory

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Fig. 4. Optical path diagram of fish-eye lens optical system

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Fig. 5. MTF curves of fish-eye lens system with 5.989 mm focal length and 180° FOV angle

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Fig. 6. Field curvature （a） and F-θ distortion curves （b） of fish-eye lens system with 5.989 mm focal length and 180° FOV angle

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Fig. 7. Relative illumination curve

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Parameter	Value
Focal length/mm	≥5
F number	≤3.5
FOV/(°)	180
Design spectrum	Visible light (F, D, C)
Maximum lens clear aperture/mm	≤100
Object location	At infinity

Table 1. Design specifications

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Surface No.	Radius of curvature/mm	Thickness/ mm	Glass	Clear diameter/ mm
Object	Infinity	Infinity	−	−
1	133	20	−	193.2188
2	113.6006	24	H-LAF52	133.5434
3	21.2604	21.3598	−	42.5158
4	212.5634	14.9998	H-LAF6LA	40.4013
5	18.6054	8.6801	−	24.5525
6	−23.3482	7.9816	H-ZK7	24.3792
7	−151.8651	10.7462	H-ZF3	27.5062
8	−61.2174	0.2868	−	30.2412
9	−67.4453	9.5701	H-ZF6	30.3071
10	−47.9643	3.2664	−	32.6737
11	127.1637	15.0004	H-LAF3B	32.2762
12	−83.7291	35.0010	−	30.4971
13 (STO)	Infinite	0.1976	−	10.0882
14	448.1495	1.9986	H-ZK14	10.2155
15	−42.4732	0.1993	−	10.7582
16	54.5847	8.6472	H-QK3L	11.0715
17	−17.1825	1.9988	H-ZF6	12.4013
18	−51.6904	0.3922	−	13.1415
19	563.3054	10.0301	H-KF6	13.3806
20	−17.1944	0.1988	−	14.8488
21	−18.5197	5.8883	H-LAFL5	14.7652
22	21.2408	8.3961	H-QK3L	16.9785
23	−26.0496	1.5939	−	19.2195
24	90.2547	11.9746	H-ZF6	20.5244
25	−40.54	10	−	21.3152
Image	Infinity	−	−	18.0099

Table 2. Optical parameters of fish-eye lens system

Guozhu Hou, Lijun Lv, Yiqing Cao. Fish-eye lens system design based on sixth-order wave aberration theory[J]. Infrared and Laser Engineering, 2021, 50(6): 20200505

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