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Stafeev, Sergey Sergeevich
Statistics Math-Net.Ru
Total publications: 49
Scientific articles: 48

Number of views:
This page:448
Abstract pages:12012
Full texts:3113
References:1576
Candidate of physico-mathematical sciences (2012)
E-mail:

Biography

rReceived his Master’s degree in Applied Mathematics and Physics from Samara State Aerospace University (2009). He is a researcher at the Laser Measurements laboratory at the Image Processing Systems Institute of the Russian Academy of Sciences (IPSI RAS). Current research interests: diffractive optics, FDTD method, near-field optics.

https://www.mathnet.ru/eng/person115666
List of publications on Google Scholar

Publications in Math-Net.Ru Citations
2024
1. G. K. Alagashev, S. S. Stafeev, A. D. Pryamikov, “Losses and orbital part of the Poynting vector of air-core modes in hollow-core fibers”, Computer Optics, 48:2 (2024),  192–196  mathnet
2. S. S. Stafeev, N. N. Kazakov, V. V. Kotlyar, “Beams with the transverse-only intensity at the focus”, Computer Optics, 48:2 (2024),  186–191  mathnet
3. V. V. Kotlyar, S. S. Stafeev, A. A. Kovalev, V. D. Zaitsev, “Focusing a cylindrical vector beam and the Hall effect”, Computer Optics, 48:1 (2024),  47–52  mathnet
2023
4. V. V. Kotlyar, S. S. Stafeev, A. M. Telegin, “Spin angular momentum at the sharp focus of a cylindrical vector vortex beam”, Computer Optics, 47:6 (2023),  875–883  mathnet 2
5. V. V. Kotlyar, S. S. Stafeev, E. S. Kozlova, “High-order optical Hall effect at the tight focus of laser radiation”, Computer Optics, 47:5 (2023),  710–715  mathnet 3
6. S. S. Stafeev, V. D. Zaitsev, V. V. Kotlyar, “Minimal focal spot obtained by focusing circularly polarized light”, Computer Optics, 47:3 (2023),  361–366  mathnet 2
7. A. G. Nalimov, V. V. Kotlyar, S. S. Stafeev, “A metalens-based optical polarization sensor”, Computer Optics, 47:2 (2023),  208–214  mathnet 6
8. S. S. Stafeev, A. D. Pryamikov, G. K. Alagashev, V. V. Kotlyar, “Reverse energy flow in vector modes of optical fibers”, Computer Optics, 47:1 (2023),  36–39  mathnet 2
9. V. V. Kotlyar, S. S. Stafeev, V. D. Zaitsev, “Sharp focusing of on-axis superposition of a high-order cylindrical vector beam and a beam with linear polarization”, Computer Optics, 47:1 (2023),  5–15  mathnet 8
2022
10. S. S. Stafeev, V. D. Zaitsev, V. V. Kotlyar, “Circular polarization before and after the sharp focus for linearly polarized light”, Computer Optics, 46:3 (2022),  381–387  mathnet 5
2021
11. V. V. Kotlyar, S. S. Stafeev, A. G. Nalimov, “Focusing of a vector beam with C-lines of polarization singularity”, Computer Optics, 45:6 (2021),  800–808  mathnet
12. S. S. Stafeev, V. D. Zaitsev, “A minimal subwavelength focal spot for the energy flux”, Computer Optics, 45:5 (2021),  685–691  mathnet 4
13. V. V. Kotlyar, A. G. Nalimov, S. S. Stafeev, A. A. Kovalev, “Sharp focusing of beams with V-point polarization singularities”, Computer Optics, 45:5 (2021),  643–653  mathnet 3
14. S. S. Stafeev, “An orbital energy flow and a spin flow at the tight focus”, Computer Optics, 45:4 (2021),  520–524  mathnet
15. V. V. Kotlyar, S. S. Stafeev, “A transverse energy flow at the tight focus of light with higher-order circular-azimuthal polarization”, Computer Optics, 45:3 (2021),  311–318  mathnet 2
16. V. D. Zaitsev, S. S. Stafeev, “Focusing fractional-order cylindrical vector beams”, Computer Optics, 45:2 (2021),  172–178  mathnet 7
17. E. S. Kozlova, S. S. Stafeev, S.A. Fomchenkov, V. V. Podlipnov, V. V. Kotlyar, “Transverse intensity at the tight focus of a second-order cylindrical vector beam”, Computer Optics, 45:2 (2021),  165–171  mathnet 12
18. A. G. Nalimov, S. S. Stafeev, “Linear to circular polarization conversion in the sharp focus of an optical vortex”, Computer Optics, 45:1 (2021),  13–18  mathnet 2
2020
19. V. D. Zaitsev, S. S. Stafeev, “The photonic nanojets formation by two-dimensional microprisms”, Computer Optics, 44:6 (2020),  909–916  mathnet 2
20. V. V. Kotlyar, S. S. Stafeev, A. G. Nalimov, A. A. Kovalev, A. P. Porfirev, “Experimental investigation of the energy backflow in the tight focal spot”, Computer Optics, 44:6 (2020),  863–870  mathnet 5
21. V. V. Kotlyar, S. S. Stafeev, L. O'Faolain, M. V. Kotlyar, “High numerical aperture metalens to generate an energy backflow”, Computer Optics, 44:5 (2020),  691–698  mathnet 8
22. S. S. Stafeev, V. V. Kotlyar, “Toroidal polarization vortices in tightly focused beams with singularity”, Computer Optics, 44:5 (2020),  685–690  mathnet 2
23. A. G. Nalimov, S. S. Stafeev, “Rotation of an elliptical dielectric particle in the focus of a circularly polarized Gaussian beam”, Computer Optics, 44:4 (2020),  561–567  mathnet 1
24. V. V. Kotlyar, A. G. Nalimov, A. A. Kovalev, A. P. Porfirev, S. S. Stafeev, “Transfer of spin angular momentum to a dielectric particle”, Computer Optics, 44:3 (2020),  333–342  mathnet 6
25. S. S. Stafeev, E. S. Kozlova, A. G. Nalimov, “Focusing a second-order cylindrical vector beam with a gradient index Mikaelian lens”, Computer Optics, 44:1 (2020),  29–33  mathnet 21
26. V. V. Kotlyar, S. S. Stafeev, A. G. Nalimov, “Vortex energy flow in the tight focus of a non-vortex field with circular polarization”, Computer Optics, 44:1 (2020),  5–11  mathnet 7
2019
27. V. V. Kotlyar, S. S. Stafeev, A. G. Nalimov, A. A. Kovalev, “Formation of the reverse flow of energy in a sharp focus”, Computer Optics, 43:5 (2019),  714–722  mathnet 2
28. V. V. Kotlyar, S. S. Stafeev, A. A. Kovalev, “Sharp focusing of a light field with polarization and phase singularities of an arbitrary order”, Computer Optics, 43:3 (2019),  337–346  mathnet 18
29. S. S. Stafeev, V. V. Kotlyar, “Formation of an elongated region of energy backflow using ring apertures”, Computer Optics, 43:2 (2019),  193–199  mathnet 1
30. V. V. Kotlyar, A. G. Nalimov, S. S. Stafeev, “Comparison of backward flow values in the sharp focus of light fields with polarization and phase singularity”, Computer Optics, 43:2 (2019),  174–183  mathnet 4
2018
31. S. S. Stafeev, A. G. Nalimov, L. O'Faolain, M. V. Kotlyar, “Effects of fabrication errors on the focusing performance of a sector metalens”, Computer Optics, 42:6 (2018),  970–976  mathnet 2
32. S. S. Stafeev, A. G. Nalimov, V. V. Kotlyar, “Energy backflow in a focal spot of the cylindrical vector beam”, Computer Optics, 42:5 (2018),  744–750  mathnet 15
33. V. V. Kotlyar, A. G. Nalimov, S. S. Stafeev, “The near-axis backflow of energy in a tightly focused optical vortex with circular polarization”, Computer Optics, 42:3 (2018),  392–400  mathnet 10
34. S. S. Stafeev, L. O'Faolain, M. V. Kotlyar, “Rotation of two-petal laser beams in the near field of a spiral microaxicon”, Computer Optics, 42:3 (2018),  385–391  mathnet 4
35. S. S. Stafeev, A. G. Nalimov, “Longitudinal component of the Poynting vector of a tightly focused optical vortex with circular polarization”, Computer Optics, 42:2 (2018),  190–196  mathnet 21
2017
36. A. G. Nalimov, S. S. Stafeev, E. S. Kozlova, V. V. Kotlyar, L. O'Faolain, M. V. Kotlyar, “Subwavelength focusing of laser light using a chromium zone plate”, Computer Optics, 41:3 (2017),  356–362  mathnet 3
37. S. S. Stafeev, A. G. Nalimov, L. O'Faolain, M. V. Kotlyar, “Binary diffraction gratings for controlling polarization and phase of laser light [review]”, Computer Optics, 41:3 (2017),  299–314  mathnet 4
38. S. S. Stafeev, V. V. Kotlyar, “Tight focusing of a sector-wise azimuthally polarized optical vortex”, Computer Optics, 41:2 (2017),  147–154  mathnet 7
39. V. V. Kotlyar, A. G. Nalimov, S. S. Stafeev, L. O'Faolain, M. V. Kotlyar, “Thin metalens with high numerical aperture”, Computer Optics, 41:1 (2017),  5–12  mathnet 4
2016
40. S. S. Stafeev, A. G. Nalimov, M. V. Kotlyar, L. O'Faolain, “Subwavelength focusing of laser light of a mixture of linearly and azimuthally polarized beams”, Computer Optics, 40:4 (2016),  458–466  mathnet 3
41. S. S. Stafeev, M. V. Kotlyar, L. O'Faolain, A. G. Nalimov, V. V. Kotlyar, “A four-zone transmission azimuthal micropolarizer with phase shift”, Computer Optics, 40:1 (2016),  12–18  mathnet 12
2015
42. S. S. Stafeev, A. G. Nalimov, M. V. Kotlyar, L. O'Faolain, “A four-zone reflective azimuthal micropolarizer”, Computer Optics, 39:5 (2015),  709–715  mathnet 6
43. V. V. Kotlyar, S. S. Stafeev, A. P. Porfirev, “Sharp focusing of linearly polarized asymmetric Bessel beam”, Computer Optics, 39:1 (2015),  36–44  mathnet 3
2014
44. S. S. Stafeev, L. O'Faolain, M. I. Shanina (Kotlyar), A. G. Nalimov, V. V. Kotlyar, “Sharp focusing of a mixture of radially and linearly polarized beams using a binary microlens”, Computer Optics, 38:4 (2014),  606–613  mathnet
45. S. S. Stafeev, V. V. Kotlyar, “Polarizing and focusing properties of reflective Fresnel zone plate”, Computer Optics, 38:3 (2014),  456–462  mathnet
46. A. G. Nalimov, L. O'Faolain, S. S. Stafeev, M. I. Shanina, V. V. Kotlyar, “Reflected four-zones subwavelenghth mictooptics element for polarization conversion from linear to radial”, Computer Optics, 38:2 (2014),  229–236  mathnet
47. V. V. Kotlyar, S. S. Stafeev, A. Yu. Feldman, “Photonic nanojets formed by square microsteps”, Computer Optics, 38:1 (2014),  72–80  mathnet
2013
48. S. S. Stafeev, V. V. Kotlyar, “Special aspects of subwavelength focal spot measurement using near-field optical microscope”, Computer Optics, 37:3 (2013),  332–340  mathnet
2017
49. S. S. Stafeev, “Indexing of Computer Optics in the Emerging Sources Citation Index database”, Computer Optics, 41:4 (2017),  592  mathnet 5

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