Abstract:
A compact adaptive system capable of imaging a human-eye retina with a spatial resolution as high as 6 μm and a field of view of 15° is developed. It is shown that a modal bimorph corrector with nonlocalised response functions provides the efficient suppression of dynamic aberrations of a human eye. The residual root-mean-square error in correction of aberrations of a real eye with nonparalysed accommodation lies in the range of 0.1 – 0.15 μm.
Citation:
A. V. Larichev, P. V. Ivanov, N. G. Iroshnikov, V. I. Shmalgauzen, L. J. Otten, “Adaptive system for eye-fundus imaging”, Kvantovaya Elektronika, 32:10 (2002), 902–908 [Quantum Electron., 32:10 (2002), 902–908]
Linking options:
https://www.mathnet.ru/eng/qe2314
https://www.mathnet.ru/eng/qe/v32/i10/p902
This publication is cited in the following 17 articles:
S. D. Bazhitov, A. V. Larichev, A. V. Razgulin, T. E. Romanenko, Kompyuternaya optika, 47:5 (2023), 751–760
Budzinskiy S., Razgulin A., J. Opt. Soc. Am. A-Opt. Image Sci. Vis., 36:3 (2019), 436–442
T. E. Romanenko, A. V. Razgulin, Comput Math Model, 30:1 (2019), 80
Krylov A., Nasonov A., Razgulin A., Romanenko T., Proceedings of 2016 IEEE 13Th International Conference on Signal Processing (Icsp 2016), International Conference on Signal Processing, eds. Baozong Y., Qiuqi R., Yao Z., Gaoyun A.N., IEEE, 2016, 49–52
Andrey Krylov, Andrey Nasonov, Alexander Razgulin, Tatiana Romanenko, 2016 IEEE 13th International Conference on Signal Processing (ICSP), 2016, 49
A. V. Razgulin, N. G. Iroshnikov, A. V. Larichev, S. D. Pavlov, T. E. Romanenko, Kompyuternaya optika, 39:5 (2015), 777–786
Larichev A., Nikolaev I., Pavlov S., Razgulin A., Laser Phys., 25:11 (2015), 115401
Robert J. Zawadzki, Donald T. Miller, Optical Coherence Tomography, 2015, 1849