Karpeev, Sergey Vladimirovich

Statistics Math-Net.Ru
Total publications: 32
Scientific articles: 31

Number of views:
This page:133
Abstract pages:6452
Full texts:1236
Doctor of physico-mathematical sciences (2005)
Speciality: 01.04.05 (Optics)
E-mail: ,
List of publications on Google Scholar
List of publications on ZentralBlatt

Publications in Math-Net.Ru
1. V. V. Podlipnov, S. V. Karpeev, V. D. Paranin, “Fully symmetric diffraction-interference beam shaper for radially polarized light on a 1530-nm wavelength”, Computer Optics, 43:4 (2019),  577–585  mathnet
2. S. V. Karpeev, V. V. Podlipnov, N. A. Ivliev, V. D. Paranin, “Transmission and detection of informationally loaded beams of wavelength 1530 nm in a random fluctuating medium”, Computer Optics, 43:3 (2019),  368–375  mathnet
3. S. A. Degtyarev, D. A. Savelyev, S. V. Karpeev, “Diffractive optical elements for the generating cylindrical beams of different orders”, Computer Optics, 43:3 (2019),  347–355  mathnet
4. A. K. Reddy, M. Martinez-Corral, S. N. Khonina, S. V. Karpeev, “Focusing of light beams by the phase apodization pupil”, Computer Optics, 42:4 (2018),  620–626  mathnet
5. S. V. Karpeev, V. V. Podlipnov, S. N. Khonina, V. D. Paranin, . . , “A four-sector polarization converter integrated in a calcite crystal”, Computer Optics, 42:3 (2018),  401–407  mathnet
6. S. V. Karpeev, V. D. Paranin, S. N. Khonina, “Generation of nonuniformly polarised vortex Bessel beams by an interference polariser”, Kvantovaya Elektronika, 48:6 (2018),  521–526  mathnet  elib [Quantum Electron., 48:6 (2018), 521–526  isi  scopus]
7. V. D. Paranin, S. V. Karpeev, O. G. Babaev, “Experimental investigation of birefringence of a parabolic gradient-index lens on the basis of astigmatic transformation of a Bessel beam”, Computer Optics, 41:6 (2017),  837–841  mathnet
8. S. V. Karpeev, V. D. Paranin, M. S. Kirilenko, “Comparison of the stability of Laguerr-Gauss vortex beams to random fluctuations of the optical environment”, Computer Optics, 41:2 (2017),  208–217  mathnet
9. V. D. Paranin, S. V. Karpeev, K. N. Tukmakov, B. O. Volodkin, “Tunable diffraction grating with transparent indium-tin oxide electrodes on a lithium niobate X-cut crystal”, Computer Optics, 40:5 (2016),  685–688  mathnet
10. S. V. Karpeev, “Generation of radially polarized zero-order Bessel beams by diffractive and polarization optics”, Computer Optics, 40:4 (2016),  583–587  mathnet
11. S. V. Karpeev, A. V. Ustinov, S. N. Khonina, “Design and analysis of a three-wave diffraction focusing doublet”, Computer Optics, 40:2 (2016),  173–178  mathnet
12. V. D. Paranin, S. V. Karpeev, “Method of measurement of thickness of uniaxial anisotropic crystals and thermal control of Bessel beam transformation”, Computer Optics, 40:1 (2016),  36–44  mathnet
13. V. D. Paranin, S. V. Karpeev, S. N. Khonina, “Control of the formation of vortex Bessel beams in uniaxial crystals by varying the beam divergence”, Kvantovaya Elektronika, 46:2 (2016),  163–168  mathnet  elib [Quantum Electron., 46:2 (2016), 163–168  isi  scopus]
14. V. D. Paranin, S. V. Karpeev, A. P. Krasnov, “A converter of circularly polarized laser beams into cylindrical vector beams based on anisotropic crystals”, Computer Optics, 39:5 (2015),  644–653  mathnet
15. V. D. Paranin, S. V. Karpeev, S. N. Khonina, “Generation of radially polarized beams based on the refractive optical elements with interference polarizing coatings”, Computer Optics, 39:4 (2015),  492–499  mathnet
16. S. V. Karpeev, S. N. Khonina, S. I. Kharitonov, “Study of the diffraction grating on a convex surface as a dispersive element”, Computer Optics, 39:2 (2015),  211–217  mathnet
17. D. A. Zayarny, A. A. Ionin, S. I. Kudryashov, S. V. Makarov, A. A. Rudenko, S. G. Bezhanov, S. A. Uryupin, A. P. Kanavin, V. I. Emel'yanov, S. V. Alferov, S. N. Khonina, S. V. Karpeev, A. A. Kuchmizhak, O. B. Vitrik, Yu. N. Kulchin, “Nanoscale boiling during single-shot femtosecond laser ablation of thin gold films”, Pis'ma v Zh. Èksper. Teoret. Fiz., 101:6 (2015),  428–432  mathnet  elib; JETP Letters, 101:6 (2015), 394–397  isi  elib  scopus
18. S. N. Khonina, S. V. Karpeev, S. V. Alferov, V. A. Soifer, “Formation of cylindrical vector beams of high order based on polarizing transformations in uniaxial crystals”, Comp. nanotechnol., 2014, 2,  19–27  mathnet
19. S. V. Karpeev, S. V. Alferov, S. N. Khonina, S. I. Kudryashov, “Study of the broadband radiation intensity distribution formed by diffractive optical elements”, Computer Optics, 38:4 (2014),  689–694  mathnet
20. S. N. Khonina, V. D. Paranin, S. V. Karpeev, A. A. Morozov, “Study of polarization transformations and interaction of ordinary and extraordinary beams in nonparaxial regime”, Computer Optics, 38:4 (2014),  598–605  mathnet
21. S. V. Alferov, S. V. Karpeev, S. N. Khonina, O. Yu. Moiseev, “Experimental study of focusing of inhomogeneously polarized beams generated using sector polarizing plates”, Computer Optics, 38:3 (2014),  57–64  mathnet
22. S. N. Khonina, S. V. Karpeev, S. V. Alferov, “Theoretical and an experimental research of polarizing transformations in uniaxial crystals for generation cylindrical vector beams of high orders”, Computer Optics, 38:2 (2014),  171–180  mathnet
23. S. V. Alferov, S. V. Karpeev, S. N. Khonina, K. N. Tukmakov, O. Yu. Moiseev, S. A. Shulyapov, K. A. Ivanov, A. B. Savel'ev-Trofimov, “On the possibility of controlling laser ablation by tightly focused femtosecond radiation”, Kvantovaya Elektronika, 44:11 (2014),  1061–1065  mathnet  elib [Quantum Electron., 44:11 (2014), 1061–1065  isi  scopus]
24. V. S. Lyubopytov, A. Z. Tlyavlin, A. Kh. Sultanov, V. Kh. Bagmanov, S. N. Khonina, S. V. Karpeev, N. L. Kazanskiy, “Mathematical model of completely optical system for detection of mode propagation parameters in an optical fiber with few-mode operation for adaptive compensation of mode coupling”, Computer Optics, 37:3 (2013),  352–359  mathnet
25. S. N. Khonina, S. V. Alferov, S. V. Karpeev, O. Yu. Moiseev, “Study of polarization sensitivity OF near-field microscope using a binary phase plate”, Computer Optics, 37:3 (2013),  326–331  mathnet
26. V. I. Adzhalov, M. A. Golub, S. V. Karpeev, I. N. Sisakyan, V. A. Soifer, “Multichannel computer-optics components matched to mode groups”, Kvantovaya Elektronika, 17:2 (1990),  177–181  mathnet [Sov J Quantum Electron, 20:2 (1990), 136–140  isi]
27. M. A. Golub, S. V. Karpeev, I. N. Sisakyan, V. A. Soifer, “Experimental investigation of the wavefronts formed by computer optics components”, Kvantovaya Elektronika, 16:12 (1989),  2592–2593  mathnet [Sov J Quantum Electron, 19:12 (1989), 1664–1665  isi]
28. E. Yu. Aref'ev, K. É. Bambulevich, M. A. Golub, S. V. Karpeev, I. N. Sisakyan, V. A. Soifer, “Comparison of two methods for determination of the power distribution between modes”, Kvantovaya Elektronika, 15:12 (1988),  2467–2470  mathnet [Sov J Quantum Electron, 18:12 (1988), 1548–1550  isi]
29. M. A. Golub, S. V. Karpeev, N. L. Kazanskii, A. V. Mirzov, I. N. Sisakyan, V. A. Soifer, G. V. Uvarov, “Spatial phase filters matched to transverse modes”, Kvantovaya Elektronika, 15:3 (1988),  617–618  mathnet [Sov J Quantum Electron, 18:3 (1988), 392–393  isi]
30. M. A. Golub, S. V. Karpeev, S. G. Krivoshlykov, A. M. Prokhorov, I. N. Sisakyan, V. A. Soifer, “Spatial filter investigation of the distribution of power between transverse modes in a fiber waveguide”, Kvantovaya Elektronika, 11:9 (1984),  1869–1871  mathnet [Sov J Quantum Electron, 14:9 (1984), 1255–1256  isi]
31. M. A. Golub, S. V. Karpeev, S. G. Krivoshlykov, A. M. Prokhorov, I. N. Sisakyan, V. A. Soifer, “Experimental investigation of spatial filters separating transverse modes of optical fields”, Kvantovaya Elektronika, 10:8 (1983),  1700–1701  mathnet [Sov J Quantum Electron, 13:8 (1983), 1123–1124  isi]
32. M. A. Golub, E. S. Zhivopistsev, S. V. Karpeev, A. M. Prokhorov, I. N. Sisakyan, V. A. Soifer, “Aspheric wave-front creation by computer-generated holograms”, Dokl. Akad. Nauk SSSR, 253:5 (1980),  1104–1108  mathnet

33. S. V. Karpeev, S. N. Khonina, O. Yu. Moiseev, S. V. Alferov, A. V. Volkov, “Polarization converter for higher-order laser beams based on the use of forming binary diffractive optical elements as beam splitter”, Vestn. Samar. Gos. Tekhn. Univ., Ser. Fiz.-Mat. Nauki [J. Samara State Tech. Univ., Ser. Phys. Math. Sci.], 4(29) (2012),  162–170  mathnet

Contact us:
 Terms of Use  Registration  Logotypes © Steklov Mathematical Institute RAS, 2020