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Greisukh, Grigoriy Isaevich

Statistics Math-Net.Ru
Total publications: 14
Scientific articles: 14

Number of views:
This page:102
Abstract pages:1290
Full texts:479
References:152
Professor
Doctor of technical sciences
E-mail:

Biography

Graduated (1965) from Penza Politechnical Institute, majoring in Radio Engineering. He is the deserved worker of the Russian higher school. He received his Doctor in Technical (1990) degrees from Leningrad Institute of Precision Mechanics and Optics. He is chief of the Physics and Chemistry department of Penza State University of Architecture and Construc tion. G.I. Greisukh is EOS and D. S. RozhdestvenskyOptical Society member. His current research interests include design of optical system, diffractive and gradientindex optics. He is coauthor of 130 scientific papers, 3 monographs, and 9 inventions.


http://www.mathnet.ru/eng/person114771
List of publications on Google Scholar
List of publications on ZentralBlatt

Publications in Math-Net.Ru
2021
1. L. L. Doskolovich, D. A. Bykov, G. I. Greisukh, Yu. S. Strelkov, “Design of a stigmatic lens with minimal Fresnel losses”, Computer Optics, 45:3 (2021),  350–355  mathnet
2. G. I. Greisukh, E. G. Ezhov, O. A. Zakharov, V. A. Danilov, B. A. Usievich, “Limiting spectral and angular characteristics of sawtooth dual-relief two-layer diffraction microstructures”, Kvantovaya Elektronika, 51:2 (2021),  184–188  mathnet [Quantum Electron., 51:2 (2021), 184–188  isi  scopus]
2020
3. G. I. Greisukh, I. A. Levin, S. V. Kazin, “Active athermalization of dual-infrared zoom lenses”, Computer Optics, 44:6 (2020),  931–936  mathnet
4. G. I. Greisukh, E. G. Ezhov, A. I. Antonov, “Correction of chromatism of dual-infrared zoom lenses”, Computer Optics, 44:2 (2020),  177–182  mathnet
5. G. I. Greisukh, E. G. Ezhov, A. I. Antonov, V. A. Danilov, B. A. Usievich, “Limiting spectral and angular characteristics of multilayer relief – phase diffraction microstructures”, Kvantovaya Elektronika, 50:7 (2020),  623–628  mathnet  elib [Quantum Electron., 50:7 (2020), 623–628  isi  scopus]
2019
6. G. I. Greisukh, E. G. Ezhov, A. I. Antonov, “Correction of chromatism of mid-infrared zoom lenses”, Computer Optics, 43:4 (2019),  544–549  mathnet
7. A. I. Antonov, L. A. Vasin, G. I. Greisukh, “Approaches to the algorithmization of the rigorous coupled-wave analysis”, Computer Optics, 43:2 (2019),  209–219  mathnet
2018
8. G. I. Greisukh, S. A. Stepanov, A. I. Antonov, “Comparative analysis of the Fresnel lens and the kinoform lens”, Computer Optics, 42:3 (2018),  369–376  mathnet
9. G. I. Greisukh, V. A. Danilov, A. I. Antonov, S. A. Stepanov, B. A. Usievich, “Spectral and angular dependence of the efficiency of a two-layer and single-relief sawtooth microstructure”, Computer Optics, 42:1 (2018),  38–43  mathnet
2017
10. G. I. Greisukh, E. G. Ezhov, S. V. Kazin, S. A. Stepanov, “Diffractive elements for imaging optics of mobile communication devices”, Computer Optics, 41:4 (2017),  581–584  mathnet
11. G. I. Greisukh, E. G. Ezhov, S. V. Kazin, S. A. Stepanov, “Single-layer kinoforms for cameras and video cameras of mobile communication devices”, Computer Optics, 41:2 (2017),  218–226  mathnet
12. G. I. Greisukh, E. G. Ezhov, S. V. Kazin, S. A. Stepanov, “Response of a matrix photodetector into components of an optical signal with different spatial frequencies”, Kvantovaya Elektronika, 47:1 (2017),  71–74  mathnet  elib [Quantum Electron., 47:1 (2017), 71–74  isi  scopus]
2016
13. G. I. Greisukh, E. G. Ezhov, S. V. Kazin, S. A. Stepanov, “Design of a holographic combiner for a virtual display”, Computer Optics, 40:2 (2016),  188–193  mathnet
2015
14. G. I. Greisukh, E. G. Ezhov, S. V. Kazin, S. A. Stepanov, “Modeling and investigation of color correction in optical systems with constituent elements synthesized by precision molding”, Computer Optics, 39:4 (2015),  529–535  mathnet
2014
15. G. I. Greisukh, E. G. Ezhov, S. V. Kazin, Z. A. Sidyakina, S. A. Stepanov, “Visual assessment of the influence of adverse diffraction orders on the quality of image formed by the refractive - diffractive optical system”, Computer Optics, 38:3 (2014),  418–424  mathnet

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