Analysis of the shape of a subwavelength focal spot for the linearly polarized light VV Kotlyar, SS Stafeev, Y Liu, L O’Faolain, AA Kovalev Applied optics 52 (3), 330-339, 2013 | 112 | 2013 |
Reverse and toroidal flux of light fields with both phase and polarization higher-order singularities in the sharp focus area VV Kotlyar, SS Stafeev, AA Kovalev Optics Express 27 (12), 16689-16702, 2019 | 99 | 2019 |
Energy backflow in the focus of a light beam with phase or polarization singularity VV Kotlyar, SS Stafeev, AG Nalimov Physical Review A 99 (3), 033840, 2019 | 91 | 2019 |
Exploiting the circular polarization of light to obtain a spiral energy flow at the subwavelength focus VV Kotlyar, AG Nalimov, SS Stafeev JOSA B 36 (10), 2850-2855, 2019 | 71 | 2019 |
The non-vortex inverse propagation of energy in a tightly focused high-order cylindrical vector beam SS Stafeev, VV Kotlyar, AG Nalimov, ES Kozlova IEEE Photonics Journal 11 (4), 1-10, 2019 | 62 | 2019 |
Modeling the sharp focus of a radially polarized laser mode using a conical and a binary microaxicon VV Kotlyar, SS Stafeev JOSA B 27 (10), 1991-1997, 2010 | 62 | 2010 |
Reflected four-zones subwavelenghth mictooptics element for polarization conversion from linear to radial AG Nalimov, L O'Faolain, SS Stafeev, MI Shanina, VV Kotlyar Computer optics 38 (2), 229-236, 2014 | 56 | 2014 |
Subwavelength gratings for polarization conversion and focusing of laser light SS Stafeev, VV Kotlyar, AG Nalimov, MV Kotlyar, L O’Faolain Photonics and Nanostructures-Fundamentals and Applications 27, 32-41, 2017 | 55 | 2017 |
Tight focusing with a binary microaxicon VV Kotlyar, SS Stafeev, L O’Faolain, VA Soifer Optics letters 36 (16), 3100-3102, 2011 | 55 | 2011 |
Modeling sharp focus radially-polarized laser mode with conical and binary microaxicons VV Kotlyar, SS Stafeev Computer Optics 33 (1), 52-60, 2009 | 55 | 2009 |
Photonic nanojets generated using square-profile microsteps VV Kotlyar, SS Stafeev, A Feldman Applied optics 53 (24), 5322-5329, 2014 | 54 | 2014 |
Tight focusing of laser light using a chromium Fresnel zone plate VV Kotlyar, SS Stafeev, AG Nalimov, MV Kotlyar, L O’Faolain, ES Kozlova Optics Express 25 (17), 19662-19671, 2017 | 48 | 2017 |
Thin high numerical aperture metalens VV Kotlyar, AG Nalimov, SS Stafeev, C Hu, L O’Faolain, MV Kotlyar, ... Optics Express 25 (7), 8158-8167, 2017 | 48 | 2017 |
Tight focus of light using micropolarizer and microlens SS Stafeev, L O’Faolain, VV Kotlyar, AG Nalimov Applied Optics 54 (14), 4388-4394, 2015 | 46 | 2015 |
Моделирование острой фокусировки радиально-поляризованной лазерной моды с помощью конического и бинарного микроаксиконов ВВ Котляр, СС Стафеев Компьютерная оптика 33 (1), 52-60, 2009 | 44 | 2009 |
Tight focusing cylindrical vector beams with fractional order SS Stafeev, AG Nalimov, VD Zaitsev, VV Kotlyar JOSA B 38 (4), 1090-1096, 2021 | 41 | 2021 |
Longitudinal component of the Poynting vector of a tightly focused optical vortex with circular polarization SS Stafeev, AG Nalimov Computer Optics 42 (2), 190-196, 2018 | 41 | 2018 |
Microlens-aided focusing of linearly and azimuthally polarized laser light SS Stafeev, AG Nalimov, MV Kotlyar, D Gibson, S Song, L O’Faolain, ... Optics Express 24 (26), 29800-29813, 2016 | 41 | 2016 |
Focusing a second-order cylindrical vector beam with a gradient index Mikaelian lens SS Stafeev, ES Kozlova, AG Nalimov Computer Optics 44 (1), 29-33, 2020 | 39* | 2020 |
Sharp focusing of a light field with polarization and phase singularities of an arbitrary order VV Kotlyar, SS Stafeev, AA Kovalev Computer optics 43 (3), 337-346, 2019 | 39 | 2019 |