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2. "Vector Aberration Theory and the Design of Off-Axis Systems," SPIE, Vol. 554, p. 76, 1985. �>%h_� R:�
3. "Aberrations of Optical Systems with Large Tilts and Decentrations," SPIE, Vol. 399, p. 272, 1983. uHkL���$}C
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4. Paraxial and Aberration Analysis of Off-Axial Optical Systems :<Yc�V#�!P
Journal Optical Review ++W��_4 B!
Publisher The Optical Society of Japan, co-published with Springer-Verlag GmbH 0Y���,_
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ISSN 1340-6000 (Print) 1349-9432 (Online) TPZZln'3 �
Subject Engineering and Physics and Astronomy 5��P9�h�m[
Issue Volume 12, Number 3 / May, 2005 E5w�.�w��x
DOI 10.1007/s10043-005-0219-3 �,^3e�M�n
Pages 219-222 s?�����@{
SpringerLink Date Friday, June 03, 2005 �J��@5�4B�
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5. Optimization of an unobscured optical system using vector aberration theory C\Qor3];��
SPIE Proceedings. Volume 679, 1986, p. 21-24. *�z!!zRh3x
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6.Vector aberration theory on a spreadsheet: analysis of tilted and decentered systems �y TfA�S�.
Proc. SPIE Vol. 1752, p. 184-195, Current Developments in Optical Design and Optical Engineering II, Robert E. Fischer; Warren J. Smith; Eds. �o��j /�:
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7. Kevin Thompson.Practical methods for the optical design of systems without symmetry.SPIE,1996,2774:2~7 "S�z pF�w
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8.Rogers J R. Design techniques for systems containing tilted components. SPIE,1999,3737:286~300 D�BANq��\
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9. Figoski J W. Aberration characteristics of nonsymmetric systems. SPIE,1985,554: 104~111
