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|
|
Список литературы
|
|
| |
| 1. |
Onoda M, Marakami S, Nagaosa N, “Hall effect of light”, Phys Rev Lett, 93:8 (2004), 083901  |
| 2. |
Bliokh KY, Bliokh YP, “Topological spin transport of photons: the optical Magnus effect and Berry phase”, Phys Lett A, 333:3–4 (2004), 181–186  |
| 3. |
Bliokh KY, Bliokh YP, “Conservation of angular momentum, transverse shift, and spin Hall effect in reflection and refraction of an electromagnetic wave packet”, Phys Rev Lett, 96:7 (2006), 073903  |
| 4. |
Kavokin A, Malpuech G, Glazov M, “Optical spin Hall effect”, Phys Rev Lett, 95:13 (2005), 136601 |
| 5. |
Hosten O, Kwiat P, “Observation of the spin Hall effect of light via weak measurements”, Science, 319:5864 (2008), 787–790 |
| 6. |
Ling X, Zhou X, Huang K, Liu Y, Qiu C, Luo H, Wen S, “Recent advances in the spin Hall effect of light”, Pep Prog Phys, 80:6 (2017), 066401 |
| 7. |
Liu S, Chen S, Wen S, Luo H, “Photonics spin Hall effect: fundamentals and emergent applications”, Opto-Electr Sci, 1:7 (2022), 220007 |
| 8. |
Ling X, Yi X, Zhou X, Liu Y, Shu W, Luo H, Wen S, “Realization of tunable spin-dependent splitting in intrinsic photonic spin Hall effect”, Appl Phys Lett, 105:15 (2014), 151101 |
| 9. |
Yin X, Ye Z, Rho J, Wang Y, Zhang X, “Photonic spin Hall effect at metasurfaces”, Science, 339:6126 (2013), 1405 |
| 10. |
Kumar RN, Yatish, Gupta SD, Ghosh N, Banerjee A, “Probing the rotational spin-Hall effect in a structured Gaussian beam”, Phys Rev A, 105:2 (2022), 023503 |
| 11. |
Zhang J, Zhou X-X, Ling X-H, Chen S-Z, Luo H-L, Wen S-C, “Orbit-orbit interaction and photonics orbital Hall effect in reflection of a light beam”, Chin Phys B, 23:6 (2014), 064215 |
| 12. |
Fu S, Guo C, Liu G, Li Y, Yin H, Li Z, Chen Z, “Spin-orbit optical Hall effect”, Phys Rev Lett, 123:24 (2019), 243904 |
| 13. |
Zhang F, Guo Y, Pu M, Li X, Ma X, Luo X, “Metasurfaces enabled by asymmetric photonic spin-orbit interactions”, Opto-Electr Eng, 47:10 (2020), 200366 |
| 14. |
Shu W, Lin C, Wu J, Chen S, Ling X, Zhou X, Luo H, Wen S, “Three-dimensional spin Hall effect of light in tight focusing”, Phys Rev A, 101:2 (2020), 023819 |
| 15. |
Bliokh KY, Ostrovskaya EA, Alonso MA, Rodriguez-Herrera OG, Lara D, Dainty C, “Spin-to-orbital angular momentum conversion in focusing, scattering, and imaging systems”, Opt Express, 19:27 (2011), 26132–26149 |
| 16. |
Ling X, Yi X, Zhou X, Liu Y, Shu W, Luo H, Wen S, “Realization of tunable spin-dependent splitting in intrinsic photonic spin Hall effect”, Appl Phys Lett, 105:15 (2014), 151101 |
| 17. |
Khonina SN, Golub I, “Vectorial spin Hall effect of light upon tight focusing”, Opt Lett, 47:9 (2022), 2166–2169 |
| 18. |
Richards B, Wolf E, “Electromagnetic diffraction in optical systems. II. Structure of the image field in an aplanatic system”, Proc R Soc A Math Phys Eng Sci, 253:1274 (1959), 358–379 |
| 19. |
Kotlyar VV, Nalimov AG, Stafeev SS, “Exploiting the circular polarization of light to obtain a spiral energy flow at the subwavelength focus”, J Opt Soc Am B, 36:10 (2019), 2850–2855 |
| 20. |
Kotlyar VV, Kovalev AA, Nalimov AG, “Energy density and energy flux in the focus of an optical vortex: reverse flux of light energy”, Opt Lett, 43:12 (2018), 2921–2924 |
| 21. |
Kotlyar V, Stafeev S, Zaitsev V, Kozlova E, “Spin-orbital conversion with the tight focus of an axial superposition of a high-order cylindrical vector beam and a beam with linear polarization”, Micromachines, 13:7 (2022), 1112 |
| 22. |
Kotlyar VV, Kovalev AA, Stafeev SS, Nalimov AG, Rasouli S, “Tightly focusing vector beams containing V-point polarization singularities”, Opt Laser Technol, 145 (2022), 107479 |
