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ISSN: 1023-5086

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ISSN: 1023-5086

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Opticheskii Zhurnal

A full-text English translation of the journal is published by Optica Publishing Group under the title “Journal of Optical Technology”

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DOI: 10.17586/1023-5086-2018-85-12-30-34

УДК: 535.317

Synthesis of telecentric-ray-path pinhole objectives

Andreev, L.N., Ezhova, V.V., Bakholdin, A.V., Vasiliev, V.N.

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Publication in Journal of Optical Technology

For Russian citation (Opticheskii Zhurnal):

Андреев Л.Н., Ежова В.В., Бахолдин А.В., Васильев В.Н. Синтез объективов с вынесенным зрачком и телецентрическим ходом лучей // Оптический журнал. 2018. Т. 85. № 12. С. 30–34. http://doi.org/10.17586/1023-5086-2018-85-12-30-34

 

Andreev L.N., Ezhova V.V., Bakholdin A.V., Vasiliev V.N. Synthesis of telecentric-ray-path pinhole objectives [in Russian] // Opticheskii Zhurnal. 2018. V. 85. № 12. P. 30–34. http://doi.org/10.17586/1023-5086-2018-85-12-30-34

For citation (Journal of Optical Technology):

L. N. Andreev, V. V. Ezhova, A. V. Bakholdin, and V. N. Vasil’ev, "Synthesis of telecentric-ray-path pinhole objectives," Journal of Optical Technology. 85(12), 765-767 (2018). https://doi.org/10.1364/JOT.85.000765

Abstract:

We describe various optical designs for single-element telecentric-ray-path pinhole objectives, as well as a technique for calculation of such objectives based on third-order aberration theory. For illustrative purposes, we present the results of an aberration calculation for objectives of this type.

Keywords:

pinhole objective, third-order aberrations, telecentric ray path

Acknowledgements:

The research was supported by the Russian Federation Ministry of Education and Science 3.2506.2017/4.6.

OCIS codes: 220.4830

References:

1. G. G. Slyusarev, Design of Optical Systems (Mashinostroenie, Leningrad, 1973).
2. M. M. Rusinov, Advanced Optical Systems Design (Knizhnyı˘ Dom Librokom, Saint Petersburg, 2011).
3. I. A. Turygin, Applied Optics (Mashinostroenie, Moscow, 1966).
4. G. E. Romanova, A. V. Bakholdin, and V. N. Vasilyev, “Optical schemes of the head-mounted displays,” Proc. SPIE 10374, 103740I (2017).
5. A. V. Bakholdin, V. N. Vasil’ev, G. É. Romanova, and N. Yu. Grishina, “Systems design of augmented-reality collimator displays,” J. Opt. Technol. 83(10), 604–609 (2016) [Opt. Zh. 83(10), 31–38 (2016)].
6. I. L. Anitropova-Livshits and I. G. Bronshtein, “Wide-angle pinhole lens,” Russian Federation Patent No. 2133488 (1999).
7. I. L. Anitropova-Livshits and I. G. Bronshtein, “Pinhole telephoto lens,” Russian Federation Patent No. 2263336 (2005).
8. I. L. Anitropova-Livshits and I. G. Bronshtein, “Fast pinhole lens,” Russian Federation Patent No. 2248597 (2005).
9. L. N. Andreev, Applied Aberration Theory (SPb GITMO(TU), Saint Petersburg, 2002).
10. L. N. Andreev and V. V. Ezhova, Applied Aberration Theory. Part 2 (NIU ITMO, Saint Petersburg, 2011).
11. L. N. Andreev and V. V. Ezhova, Applied Aberration Theory. Part 3 (ITMO University, Saint Petersburg, 2016).
12. L. N. Andreev and V. V. Ezhova, “Afocal compensators of optical systems aberrations,” Izv. Vyssh. Uchebn. Zaved. Priborostr. (7), 660–663 (2017).