Институт теоретической физики им. Л.Д. Ландау


Российской академии наук

Сергей Сергеевич Вергелес

Научный сотрудник

Кандидат физ.-мат. наук

Доцент

Дата рождения: 21 августа 1982

Эл. почта:
Дом. страница: http://ssver.itp.ac.ru

Публикации

    1. E. Efremova, S. Perminov, S.S. Vergeles, Resonance behavior of diffraction on encapsulated guided-mode grating of subwavelength thickness, Photonics and Nanostructures - Fundamentals and Applications, Vol. 46, 100953 (2021), WoS: 000696312700005, Scopus: 2-s2.0-85111994910, ADS: 2021PhNan..4600953E , РИНЦ: 46962745.
    2. V.M. Parfenyev, I.A. Vointsev, A.O. Skoba, S.S. Vergeles, Velocity profiles of cyclones and anticyclones in a rotating turbulent flow, Physics of Fluids 33, 065117 (2021); arXiv:2104.09914, WoS: 000677517800014, Scopus: 2-s2.0-85107721111, ADS: 2021PhFl...33f5117P, РИНЦ: 46808880.
    3. N.A. Ivchenko, S.S. Vergeles, Waves in a coherent two-dimensional flow, Physics of Fluids 33, 105102 (2021), Scopus: 2-s2.0-85116472935, ADS: 2021PhFl...33j5102I.
    4. V.M. Parfenyev, S.S. Vergeles, Influence of Ekman friction on the velocity profile of a coherent vortex in a three-dimensional rotating turbulent flow, Physics of Fluids 33, 115128 (2021), WoS: 000721303800005, Scopus: 2-s2.0-85120065597.
    5. L.L. Ogorodnikov, S.S. Vergeles, Velocity structure function in a geostrophic coherent vortex under strong rotation, arXiv:2112.05976, ADS: 2021arXiv211205976O.
    6. P.V. Dudkin, D.A. Zhevnenko, S.V. Kokhanovsky, S.S. Vergeles, T.V. Krishtop, V.G. Krishtop, Study of the electrochemical part of the transfer function of an electrochemical transducer with metal mesh electrodes, J. Electroanalytical Chemistry, 868, 114132 (2020), WoS: 000539436000002, Scopus: 2-s2.0-85084701918, ADS: -, РИНЦ: 43284221.
    7. I.V. Kolokolov, L.L. Ogorodnikov, S.S. Vergeles, Structure of coherent columnar vortices in three-dimensional rotating turbulent flow, Phys. Rev. Fluids 5, 034604 (2020), WoS: 000522200500003, Scopus: 2-s2.0-85083672269, ADS: 2020PhRvF...5c4604K, РИНЦ: 43285034.
    8. V.M. Parfenyev, S.S. Vergeles, Large-scale vertical vorticity generated by two crossing surface waves, Phys. Rev. Fluids 5, 094702 (2020), WoS: 000573788200001, Scopus: 2-s2.0-85092514352, ADS: 2020PhRvF...5i4702P.
    9. В.Г. Криштоп, Д.А. Жевненко, П.В. Дудкин, Е.С. Горнев, В.Г. Попов С.С. Вергелес, Т.В. Криштоп, Технология и применение электрохимических преобразователей, Наноиндустрия, № S96-2, c. 450-456 (2020), РИНЦ: 43004599.
    10. А.Б. Бузовкин, С.С. Вергелес, И.В. Колоколов, В.В. Лебедев, Когерентный вихрь в двумерном турбулентном потоке в окрестности вращающегося диска, Письма в ЖЭТФ, 111 (8), 509-513 (2020) [A.B. Buzovkin, I.V. Kolokolov, V.V. Lebedev, S.S. Vergeles, Coherent Vortex in Two-Dimensional Turbulence around a Rotating Disc, JETP Letters, 111(8), 442-446 (2020)], WoS: 000526378100005, Scopus: 2-s2.0-85083770559, ADS: 2020JETPL.111..442B, РИНЦ: 43285830.
    11. V.I. Shoev, E.A. Efremova, A.A. Zinchik, I.R. Krylov, U. Prokhorova, E.V. Shalymov, S.S. Vergeles, V.Yu. Venediktov, Form of the resonant reflection (transmission) line of optically thin dielectric gratings with different filling coefficients, Proc. SPIE 11556, Nanophotonics and Micro/Nano Optics VI, 115560T (10 October 2020), ADS: 2020SPIE11556E..0TS.
    12. V.M. Parfenyev, S.S. Vergeles, Virtual wave stress in deep-water crossed surface waves, arXiv:2004.06066, ADS: 2020arXiv200406066P.
    13. V.M. Parfenyev, S.V. Filatov, M.Yu. Brazhnikov, S.S. Vergeles, A.A. Levchenko, Formation and decay of eddy currents generated by crossed surface waves, Phys. Rev. Fluids 4, 114701 (2019); arXiv:1905.01875, WoS: 000495074800004, Scopus: 2-s2.0-85075270507, ADS: 2019PhRvF...4k4701P, РИНЦ: 41822639.
    14. E. Efremova, S. Perminov, S.S. Vergeles, Parametric behavior of diffraction on guided-mode resonant grating of subwavelength thickness, arXiv:1905.04784, ADS: 2019arXiv190504784E.
    15. S. Derevyanko, A. Redyuk, S. Vergeles, S. Turitsyn, Invited Article: Visualisation of extreme value events in optical communications, APL Photonics 3, 060801 (2018), WoS: 000436860100001, Scopus: 2-s2.0-85055404847.
    16. L.L. Ogorodnikov, S.S. Vergeles, Intensity statistics in a long random fiber Raman laser, Optics Letters, 43(4), 651-654 (2018), WoS: 000425123700007, Scopus: 2-s2.0-85042029382.
    17. V.M. Parfenyev, S.S. Vergeles, Influence of a thin compressible insoluble liquid film on the eddy currents generated by interacting surface waves, Phys. Rev. Fluids 3, 064702 (2018); arXiv:1706.07310, WoS: 000434635200003, Scopus: 2-s2.0-85049789526.
    18. А.С. Бугаев, А.Н. Антонов, В.М. Агафонов, К.С. Белотелов, С.С. Вергелес, П.В. Дудкин, Е.В. Егоров, И.В. Егоров, Д.А. Жевненко, С.Н. Жабин, Д.Л. Зайцев, Т.В. Криштоп, А.В. Неешпапа, В.Г. Попов, В.В. Усков, А.С. Шабалина, В.Г. Криштоп, Измерительные приборы на основе молекулярно-электронных преобразователей, Радиотехника и электроника, 63(12), 1249-1262 (2018) [A.S. Bugaev, A.N. Antonov, B.M. Agafonov, K.S. Belotelov, S.S. Vergeles, P.V. Dudkin, E.V. Egorov, I.V. Egorov, D.A. Zhevnenko, S.N. Zhabin, D.L. Zaitsev, T.V. Krishtop, A.V. Neeshpapa, V.G. Popov, V.V. Uskov, A.S. Shabalina, V.G. Krishtop, Measuring Devices Based on Molecular-Electronic Transducers, J. Commun. Technol. Electron., 63(12), 1339–1351 (2018)], WoS: 000455542900001, Scopus: 2-s2.0-85059947824.
    19. С.С. Вергелес, Л.Л. Огородников, Флуктуации интенсивности в слабонелинейном случайном сигнале в оптоволокне с накачкой, 8 Российский семинар по волоконным лазерам, Новосибирск, 3-7 сентября 2018. Тезисы докладов, с. 70-71 (2018), РИНЦ: 36078189.
    20. С.С. Вергелес, Л.Л. Огородников, Статистика интенсивности в случайном волоконном лазере, 8 Российский семинар по волоконным лазерам, Новосибирск, 3-7 сентября 2018. Тезисы докладов, с. 97 (2018), РИНЦ: 36079575.
    21. L.L. Ogorodnikov, S.S. Vergeles, V.V. Lebedev, Intensity Statistics of the Emission of Raman Random Fiber Laser, Optics, Photonics and Lasers: Proc. 1st International Conference on on Optics, Photonics and Lasers (OPAL' 2018), 9-11 May 2018, Barcelona, Spain, p. 257-260 (2018), WoS: 000454436200075.
    22. S.A. Derevyanko, A. Redyuk, S. Vergeles, S. Turitsyn, Identifying Extreme PAPR in Coherent Optical Communications, Proc. 2018 European Conference on Optical Communication, ECOC 2018; Rome; Italy; 23-27 September 2018, Art.No. 8535373 (2018), Scopus: 2-s2.0-85063213523.
    23. С.С. Вергелес, Л.Л. Огородников, В.В. Лебедев, И.В. Колоколов, Статистика интенсивности в случайном волоконном лазере, VII Международная конференция по фотонике и информационной оптике, Москва, 24-26 января 2018. Сб. научных трудов, с. 184-185 (2018).
    24. S.S. Vergeles, A.K. Sarychev, G. Tartakovsky, All-dielectric light concentrator to subwavelength volume, Phys. Rev. B 95, 085401 (2017), WoS: 000402193100005, Scopus: 2-s2.0-85013059216.
    25. С.П. Елисеев, Н.С. Курочкин, С.С. Вергелес, В.В. Сычев, Д.А. Чубич, П. Аргиракис, Д.А. Колымагин, А.Г. Витухновский, Эффект Парселла в треугольных плазмонных патч-наноантеннах с трехслойными коллоидными квантовыми точками, Письма в ЖЭТФ, 105 (9), 545-549 (2017) [S.P. Eliseev, N.S. Kurochkin, S.S. Vergeles, V.V. Sychev, D.A. Chubich, P. Argyrakis, D.A. Kolymagin, A.G. Vitukhnovskii, Purcell effect in triangular plasmonic nanopatch antennas with three-layer colloidal quantum dots, JETP Lett., 105(9), 577-581 (2017)], WoS: 000405697500005, Scopus: 2-s2.0-85024090969.
    26. A.K. Sarychev, S. Vergeles, G. Tartakovsky, Light concentration in subwavelength volume by dielectric transducer and local sensing of plasmonic systems, Proc. SPIE 10343, (Metamaterials, Metadevices, and Metasystems 2017), 103430E (2017).
    27. V.M. Parfenyev, S.S. Vergeles, V.V. Lebedev, Effects of thin film and Stokes drift on the generation of vorticity by surface waves, Phys. Rev. E 94, 052801 (2016); arXiv:1607.04556, WoS: 000386898200011, Scopus: 2-s2.0-84994639427.
    28. S.V. Filatov, V.M. Parfenyev, S.S. Vergeles, M.Yu. Brazhnikov, A.A. Levchenko, V.V. Lebedev, Nonlinear Generation of Vorticity by Surface Waves, Phys. Rev. Lett. 116, 054501 (2016), WoS: 000369495000010, Scopus: 2-s2.0-84957824004.
    29. V.M. Parfenyev, S.S. Vergeles, V.V. Lebedev, Nonlinear generation of vorticity in thin smectic films, Письма в ЖЭТФ, 103 (3), 220-224 (2016) [JETP Letters, 103(3), 201-205 (2016)]; arXiv:1512.03763, WoS: 000376108100012, Scopus: 2-s2.0-84979524849.
    30. С.С. Вергелес, Электродинамика сплошных сред. Отдельные вопросы : Учебно-методическое пособое, Москва, МФТИ, 2016.
    31. D.A. Zhevnenko, S.S. Vergeles, T.V. Krishtop, D.V. Tereshonok, E.S. Gornev, V.G. Krishtop, The simulation model of planar electrochemical transducer, Proc. SPIE 10224, 102241I (2016), WoS: 000393152900054, Scopus: 2-s2.0-85011552266.
    32. D.V. Churkin, I.V. Kolokolov, E.V. Podivilov, I.D. Vatnik, M.A. Nikulin, S.S. Vergeles, I.S. Terekhov, V.V. Lebedev, G. Falkovich, S.A. Babin, S.K. Turitsyn, Wave kinetics of random fibre lasers, Nature Commun. 6, 6214 (2015), WoS: 000350201100023, Scopus: 2-s2.0-84939549059.
    33. S. Belan, S. Vergeles, Plasmon mode propagation in array of closely spaced metallic cylinders, Optical Mater. Express, 5(1), 130-141 (2015), WoS: 000346878400013, Scopus: 2-s2.0-84920937751.
    34. S. Belan, V. Parfenyev, S. Vergeles, Negative-angle refraction and reflection of visible light with a planar array of silver dimers, Optical Mater. Express, 5(12), 2843-2848 (2015), WoS: 000366045900014, Scopus: 2-s2.0-84950110000.
    35. S. Belan, A. Chernykh, V. Lebedev, S. Vergeles, Confinement of inertial particles in viscous boundary layer of turbulent flow, Письма в ЖЭТФ, 101 (1), 14-18 (2015) [Confinement of inertial particles in the viscous boundary layer of a turbulent flow, JETP Letters, 101(1), 12-16 (2015)], WoS: 000351661700003, Scopus: 2-s2.0-84938094775.
    36. D.V. Churkin, I.V. Kolokolov, E.V. Podivilov, I.D. Vatnik, M.A. Nikulin, S.S. Vergeles, I.S. Terekhov, V.V. Lebedev, G. Falkovich, S.A. Babin, S.K. Turitsyn, Wave Kinetics of Random Fibre Lasers, Proc. 2015 European Conference on Lasers and Electro-Optics - European Quantum Electronics Conference (EQEC), paper EI_2_2 (Optical Society of America, 2015), Scopus: 2-s2.0-85019531592.
    37. D.V. Churkin, I. Kolokolov, E.V. Podivilov, I. Vatnik, M. Nikulin, S. Vergeles, I. Terekhov, V. Lebedev, G. Falkovich, S.A. Babin, S, Turitsyn, How Optical Spectrum of Random Fiber Laser is Formed, Proc. CLEO-QELS Fundamental Science, paper FW4D-5. Optical Society of America (May 2015), WoS: 000370627101030, Scopus: 2-s2.0-84935046960.
    38. S.S. Vergeles, A.K. Sarychev, Silicon “plasmonics” and optical field concentration at nanometer scale, Proc. SPIE 9544, 954415 (2015), WoS: 000368010300030, Scopus: 2-s2.0-84951021806.
    39. A.K. Sarychev, G. Tartakovsky, S. Vergeles, V. Parfenyev, Thermal phenomena in quantum plasmonics, Proc. SPIE 9547, 95470A (2015) [Plasmonics: Metallic Nanostructures and Their Optical Properties XIII, San Diego, CA, USA, August 09, 2015. Ed. by Allan D. Boardman, Din Ping Tsai], WoS: 000365754300007, Scopus: 2-s2.0-85044745927.
    40. V.M. Parfenyev, S.S. Vergeles, Quantum theory of a spaser-based nanolaser, Optics Express, 22(11), 13671-13679 (2014); arXiv:1402.1930, WoS: 000337501600094, Scopus: 2-s2.0-84901854154.
    41. I.S. Terekhov, S.S. Vergeles, S.K. Turitsyn, Conditional Probability Calculations for the Nonlinear Schrödinger Equation with Additive Noise, Phys. Rev. Lett. 113, 230602 (2014); arXiv:1411.6792, WoS: 000346375300001, Scopus: 2-s2.0-84918509810.
    42. I.V. Kolokolov, V.V. Lebedev, E.V. Podivilov, S.S.Vergeles, Theory of random fiber laser, ЖЭТФ, 146(6), 1295-1300 (2014) [JETP 119(6), 1134-1139 (2014)], WoS: 000348306000015, Scopus: 2-s2.0-84921838236.
    43. I.A. Fyodorov, V.M. Parfenyev, G.T. Tartakovsky, S.S. Vergeles, A.K. Sarychev, Allowable number of plasmons in nanoparticle, Письма в ЖЭТФ, 100 (8), 591-595 (2014) [I.A. Fedorov, V.M. Parfenyev, S.S. Vergeles, G.T. Tartakovsky, A.K. Sarychev, JETP Letters, 100(8), 530-534 (2014)]; arXiv:1308.0811, WoS: 000347917700010, Scopus: 2-s2.0-84920546210.
    44. A.K. Sarychev, I.A. Fedorov, V.M. Parfenyev, S.S. Vergeles, G.T. Tartakovsky, Quantum plasmonics, In: META’14 - Singapore: The 5th Int. Conf. on Metamaterials, Photonic Crystals and Plasmonics, 20-23 May 2014, Singapore, Book of Abstr., p.461-465 (2014). ISBN : 978-2-9545460-2-5.
    45. A.K. Sarychev, I. Fyodorov. V.M. Parfenyev, G. Tartakovsky, S.S. Vergeles, Thermal instability in plasmonics, Proc. SPIE, 9278, 927806 (2014) (7 pages), WoS: 000349367200003, Scopus: 2-s2.0-84923039633.
    46. V.V. Lebedev, S.S. Vergeles, P.E. Vorobev, Surface modes in metal–insulator composites with strong interaction of metal particles, Appl. Phys. B 111(4), 577-588 (2013), WoS: 000322068900007, Scopus: 2-s2.0-84880916855.
    47. S. Belan, S. Vergeles, P. Vorobev, Adjustable subwavelength localization in a hybrid plasmonic waveguide, Optics Express, 21 (6), 7427-7438 (2013); arXiv:1211.1989, WoS: 000316796000081, Scopus: 2-s2.0-84875741780.
    48. S.A. Belan, S.S. Vergeles, P.E. Vorobev, Adjustable subwavelength localization in a hybrid plasmonic waveguide, Труды МФТИ, 5(1), 150-162 (2013).
    49. A. Ivanov, A. Shalygin, V. Lebedev, P. Vorobev, S. Vergiles, A.K. Sarychev, Plasmonic extraordinary transmittance in array of metal nanorods, Appl. Phys. A 107(1), 17-21 (2012), WoS: 000302642400003, Scopus: 2-s2.0-84859163777.
    50. V.E. Babicheva, S.S. Vergeles, P.E. Vorobev, S. Burger, Localized surface plasmon modes in a system of two interacting metallic cylinders, J. Opt. Soc. Amer. B 29(6), 1263-1269 (2012); arXiv:1204.5773, WoS: 000305029900017, Scopus: 2-s2.0-84861811699.
    51. V.M. Parfenyev, S.S. Vergeles, Intensity-dependent frequency shift in surface plasmon amplification by stimulated emission of radiation, Phys. Rev. A 86, 043824 (2012) [5 pages], WoS: 000309856700006, Scopus: 2-s2.0-84867506828.
    52. A.V. Ivanov, A.N. Shalygin, P.E. Vorobev, S.S. Vergeles, A.K. Sarychev, Plasmon excitation in array of adjoining metal nanorods: Field enhancement and optical sensing, Proc. Int. Conf. Days on Diffraction (DD 2012), St-Petersburg, May 28 - June 1 2012, p. 119-123, Scopus: 2-s2.0-84873476028.
    53. V.M. Parfenyev, S.S. Vergeles, Spaser in above-threshold regime: The lasing frequency shift, Proc. Int. Conf. Days on Diffraction (DD 2012), St-Petersburg, May 28 - June 1 2012, p. 188-191, Scopus: 2-s2.0-84873418707.
    54. С.С Вергелес, П.Е. Воробьёв, И.Р. Габитов, В.В. Лебедев, Распространение поверхностных плазмонных колебаний по периодической решётке металлических цилиндров малого размера, Материалы 5-го Российского семинара по волоконным лазерам, 27-30 марта 2012 г., Новосибирск, с. 20-21.
    55. S. Vergeles, S.K. Turitsyn, Optical rogue waves in telecommunication data streams, Phys. Rev. A 83, 061801(R) (2011) [4 pages], WoS: 000291308700002, Scopus: 2-s2.0-79961065145.
    56. S. Vergeles, S.K. Turitsyn, Reply to “Comment on ‘Optical rogue waves in telecommunication data streams’”, Phys. Rev. A 84, 067802 (2011) [2 pages], WoS: 000297760000013, Scopus: 2-s2.0-83655164928.
    57. S.S. Vergeles, P.E. Vorobev, Motion of near-spherical micro-capsule in planar external flow, Письма в ЖЭТФ, 94 (7), 553-558 (2011) [JETP Lett., 94(7), 513-518 (2011)], WoS: 000297820000004, Scopus: 2-s2.0-82855172340.
    58. S.S. Vergeles, V.V. Lebedev, P.E. Vorobev, Surface plasmon propagation in a metalic nanocylinder array, Int. Conference “Days of Diffraction’ 2011”, Saint Petersburg, May 30 – June 3, 2011. Book of Abstracts, p. 178-180.
    59. P.E. Vorobev, V.V. Lebedev, S.S. Vergeles, Enhancement of electric field between two metallic granules due to plasmonic resonance, Int. Conference “Days of Diffraction’ 2011”, Saint Petersburg, May 30 – June 3, 2011. Book of Abstracts, p. 182-183.
    60. V. Lebedev, S. Vergeles, P. Vorobev, Giant enhancement of electric field between two close metallic grains due to plasmonic resonance, Opt. Lett., 35 (5), 640-642 (2010); arXiv:0910.5716, Scopus: 2-s2.0-77649225651.
    61. V.V. Lebedev, K.S. Turitsyn, S.S. Vergeles, Nearly spherical vesicles in an external flow, New J. Phys., 10, 043044 (2008) (35 pp); arXiv:0705.3543, WoS: 2-s2.0-46449130348.
    62. K.S. Turitsyn, S.S. Vergeles, Wrinkling of Vesicles during Transient Dynamics in Elongational Flow, Phys. Rev. Lett., 100, 028103 (2008), Scopus: 2-s2.0-38649096948.
    63. С.С. Вергелес, Реологические свойства взвеси везикул, Письма в ЖЭТФ, 87 (9), 597-601 (2008) [S.S. Vergeles, Rheological properties of a vesicle suspension, JETP Lett., 87(9), 511-515 (2008)], Scopus: 2-s2.0-47249124501.
    64. V.V. Lebedev, K.S. Turitsyn, S.S. Vergeles, Dynamics of nearly spherical vesicles in an external flow, Phys. Rev. Lett. 99, 218101 (2007); arXiv:0705.3543, Scopus: 2-s2.0-36248980527.
    65. K.S. Turitsyn, S.S. Vergeles, Dynamics of wrinkles on a vesicle in external flow, arXiv:0705.3539.
    66. С.С. Вергелес, Пространственная зависимость корреляционных функций пассивного скаляра в распадной задаче с крупномасштабным полем скорости, ЖЭТФ, 129(4), 777-796 (2006) [S.S. Vergeles, Spatial dependence of correlation functions in the decay problem for a passive scalar in a large-scale velocity filed, JETP, 102(4), 685-701 (2006)], Scopus: 2-s2.0-33744509577.
    67. Y. Chung, V.V. Lebedev, S.S. Vergeles, Interaction of solitons through radiation in optical fibers with randomly varying birefringence, Optics Letters, 29(11), 1245-1247 (2004).
    68. Y. Chung, V.V. Lebedev, S.S. Vergeles, Radiation-induced interaction of optical solitons in fibers with randomly varying birefringence, Phys. Rev. E 69, 046612 (2004) (16 pages), Scopus: 2-s2.0-37649032409.