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Publications in Math-Net.Ru |
Citations |
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2025 |
| 1. |
A. S. Machikhin, A. Yu. Marchenkov, D. V. Chernov, T. D. Balandin, M. O. Sharikova, A. A. Bykov, D. D. Khokhlov, I. A. Eliovich, Yu. V. Pisarevskii, A. A. Pankina, “Acoustic emission damage accumulation monitoring during mechanical and thermal strain of paratellurite monocrystal”, Zhurnal Tekhnicheskoi Fiziki, 95:5 (2025), 1008–1017   |
| 2. |
A. V. Guryleva, T. G. Grishacheva, A. S. Machikhin, D. A. Ziganurova, A. S. Belyaeva, A. A. Zolotukhina, S. G. Chefu, P. V. Luzhnov, N. N. Petrishchev, “Визуализация и количественная оценка пространственного распределения параметров микроциркуляции в ходе фотодинамической терапии кожи”, Optics and Spectroscopy, 133:5 (2025), 524–535 |
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2024 |
| 3. |
V. V. Shipko, V. È. Pozhar, A. S. Machikhin, M. O. Sharikova, O. A. Kananykhin, Yu. V. Pisarevskii, I. B. Sergeev, “Formation of contrasting polychromatic images of specified objects based on multi-window acousto-optical filtering”, Computer Optics, 48:2 (2024), 231–241 |
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2023 |
| 4. |
A. S. Machikhin, D. V. Chernov, A. Yu. Marchenkov, I. A. Eliovich, V. I. Akkuratov, A. A. Khvostov, A. A. Pankina, “Acoustic emission defectoscopy of paratellurite crystals”, Fizika Tverdogo Tela, 65:11 (2023), 2000–2007 |
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2022 |
| 5. |
V. V. Shipko, E. A. Samoylin, V. È. Pozhar, A. S. Machikhin, “Formation of contrast images of specified objects by acousto-optic hyperspectrometer by selective spectral registration”, Optics and Spectroscopy, 130:10 (2022), 1603–1610 |
| 6. |
A. S. Machikhin, M. O. Sharikova, A. I. Lyashenko, A. B. Kozlov, V. E. Pozhar, V. A. Lomonov, E. Stoikova, “Attenuation of the intensities of spectral components of a multiwavelength pulsed laser system by means of the Bragg diffraction of radiation by several acoustic waves”, Kvantovaya Elektronika, 52:5 (2022), 454–458 [Quantum Electron., 52:5 (2022), 454–458  ] |
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2021 |
| 7. |
V. O. Vinokurov, I. A. Matveeva, Yu. Khristoforova, O. O. Myakinin, I. A. Bratchenko, L. A. Bratchenko, A. A. Moryatov, S. V. Kozlov, A. S. Machikhin, I. Abdulhalim, V. P. Zakharov, “Neural network classifier of hyperspectral images of skin pathologies”, Computer Optics, 45:6 (2021), 879–886 |
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2020 |
| 8. |
A. I. Lyashenko, O. V. Pol'shchikova, A. S. Machikhin, A. G. Vlasova, V. È. Pozhar, A. B. Kozlov, “Three-colour digital holographic microscopy based on a Mach – Zender interferometer and a solid-state RGB laser”, Kvantovaya Elektronika, 50:7 (2020), 662–666 [Quantum Electron., 50:7 (2020), 662–666  ] |
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2019 |
| 9. |
V. Sherendak, I. A. Bratchenko, O. O. Myakinin, P. Volkhin, Yu. Khristoforova, A. A. Moryatov, A. S. Machikhin, V. È. Pozhar, S. V. Kozlov, V. P. Zakharov, “Hyperspectral in vivo analysis of normal skin chromophores and visualization of oncological pathologies”, Computer Optics, 43:4 (2019), 661–670 |
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| 10. |
V. I. Batshev, A. B. Kozlov, A. S. Machikhin, M. O. Makeev, A. S. Osipkov, M. F. Bulatov, I. Yu. Kinzhagulov, K. A. Stepanova, “Reinforcing of a mirror surface via the deposition of a carbon nanostructure”, Optics and Spectroscopy, 127:4 (2019), 581–585 ; Optics and Spectroscopy, 127:4 (2019), 634–638 |
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| 11. |
O. V. Pol'shchikova, A. S. Machikhin, A. G. Ramazanova, I. A. Bratchenko, V. È. Pozhar, I. V. Danilycheva, O. R. Katunina, M. V. Danilychev, “An acousto-optic hyperspectral unit for histological study of microscopic objects”, Optics and Spectroscopy, 126:2 (2019), 237–244 ; Optics and Spectroscopy, 125:6 (2018), 1074–1080 |
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2018 |
| 12. |
A. V. Gorevoy, V. Ya. Kolyuchkin, A. S. Machikhin, “Estimation of the geometrical measurement error at the stage of stereoscopic system design”, Computer Optics, 42:6 (2018), 985–997 |
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2017 |
| 13. |
K. M. Bulatov, Yu. V. Mantrova, A. A. Bykov, M. Gaponov, P. V. Zinin, A. S. Machikhin, I. A. Trojan, V. I. Batshev, I. B. Kutuza, “Multi-spectral image processing for the measurement of a spatial temperature distribution on the surface of a laser-heated microscopic object”, Computer Optics, 41:6 (2017), 864–868 |
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| 14. |
A. V. Gorevoy, A. S. Machikhin, “Optimal calibration of a prism-based videoendoscopic system for precise 3D measurements”, Computer Optics, 41:4 (2017), 535–544 |
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| 15. |
A. S. Machikhin, L. I. Burmak, V. È. Pozhar, “Calculation of the interference pattern formed by image-carrying light beams diffracted by an acoustic wave in a uniaxial crystal”, Computer Optics, 41:2 (2017), 169–174 |
| 16. |
V. I. Batshev, A. S. Machikhin, V. È. Pozhar, “Determining the aberration characteristics of optical systems containing acousto-optical diffraction elements”, Pisma v Zhurnal Tekhnicheskoi Fiziki, 43:4 (2017), 72–79 ; Tech. Phys. Lett., 43:2 (2017), 216–219 |
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2016 |
| 17. |
A. S. Machikhin, V. I. Batshev, V. È. Pozhar, M. M. Mazur, “Acousto-optical full-field stereoscopic spectrometer for 3D reconstruction in an arbitrary spectral interval”, Computer Optics, 40:6 (2016), 871–877 |
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2015 |
| 18. |
A. S. Machikhin, O. V. Pol'shchikova, A. G. Ramazanova, V. È. Pozhar, “Recording digital holograms of optically transparent objects in arbitrary spectral intervals based on acousto-optic filtration of radiation”, Pisma v Zhurnal Tekhnicheskoi Fiziki, 41:19 (2015), 16–21 ; Tech. Phys. Lett., 41:10 (2015), 926–929 |
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| 19. |
A. S. Machikhin, V. È. Pozhar, “Spatial and spectral image distortions caused by diffraction of an ordinary polarised light beam by an ultrasonic wave”, Kvantovaya Elektronika, 45:2 (2015), 161–165 [Quantum Electron., 45:2 (2015), 161–165 ] |
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2010 |
| 20. |
A. S. Machikhin, V. È. Pozhar, “Image transformation caused by wide-angle acousto-optic interaction”, Kvantovaya Elektronika, 40:9 (2010), 837–841 [Quantum Electron., 40:9 (2010), 837–841 ] |
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