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Publications in Math-Net.Ru |
Citations |
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2020 |
1. |
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 |
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2018 |
2. |
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 |
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3. |
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 |
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2017 |
4. |
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 |
3
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5. |
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 |
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6. |
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 |
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2016 |
7. |
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 |
3
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8. |
V. V. Kotlyar, A. G. Nalimov, M. V. Kotlyar, “Modeling a polarization microlens to focus linearly polarized light into a near-circular subwavelength focal spot”, Computer Optics, 40:4 (2016), 451–457 |
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9. |
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 |
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2015 |
10. |
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 |
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