论文信息 - The design of a triplet with a shape-dependent third-order aberration optimization technique

The design of a triplet with a shape-dependent third-order aberration optimization technique

Abstract We have derived a series of shape-dependent third-order aberration equations involving lens thickness. These equations are used in a simple and direct method to correct real aberrations and to find the minimum aberration for triple design that has been proposed. These calculated third-order aberrations can exactly meet the target values for each stage by means of the damped least-squares method. The shape of the three elements permits the control of three third-order aberrations: spherical aberration, coma and astigmatism. The spherical aberration is targeted first. The minimal value of the real on-axis aberration is obtained. Similarly, the coma and astigmatism target values are adjusted so as to force the full field angle real off-axis aberrations down to a minimum. Finally, the manual adjustment of the lens thickness and air spacing is used to attain the minimum aberration at the 0.7 field angle. To verify the method, two triplet design examples are presented.

[2] Steven G. Louie,et al. A Monte carlo simulated annealing approach to optimization over continuous variables , 1984 .

[3] Hong Chang,et al. Design of a Cooke triplet by optimization technique , 2001, Optics + Photonics.

[4] Mao-hong Lu,et al. Method of solving a triplet comprising a singlet and a cemented doublet with given primary aberrations , 1997 .

[5] B Brixner. Lens design and local minima. , 1981, Applied optics.

[6] Robert Rennie Shannon,et al. The Art and Science of Optical Design , 1997 .

[7] Donald C. O'Shea,et al. Global view of optical design space , 1991 .

[8] T. H. Jamieson. Optimization techniques in lens design , 1971 .

[9] Donald P. Feder,et al. Automatic Optical Design , 1963 .

[10] Rudolf Kingslake,et al. Lens Design Fundamentals , 1978 .

[11] Ching-Cherng Sun,et al. Optimization design of the split doublet using the shape factors of the third-order aberrations for a thick lens , 2004 .

[12] J. Colotti,et al. EMC DESIGN FUNDAMENTALS , 2006, 2006 IEEE Long Island Systems, Applications and Technology Conference.

[13] C. G. Wynne,et al. Lens design by computer , 1963 .

[14] M. E. Johnson,et al. Generalized simulated annealing for function optimization , 1986 .