E-mail address:

    Vladimir G. Leiman

    Vladimir G. Leiman

    Профессор кафедры общей физики.

    Главный научный сотрудник лаборатории нанооптики и плазмоники.

    Комната 115 (главный корпус), Московский физико-технический институт (государственный университет)
    Институтский пер. 9, Долгопрудный, 141707, Россия

    Member of the Optical Society of America, (since 2007)


    Рабочий телефон: +7(495)408–82–98  

    e-mail: v_leiman@mail.ru


    Доктор физико-математических наук (1989)


    Руководитель проектов РФФИ: 02-01-00526-а, 05-01-00790-а, 09-07-00440-а, 11-07-12072-офи-м, 12-07-00710-а.


    Руководитель проекта ФЦП «Научные и научно-педагогические кадры инновационной России на 2009-2013 годы»: П1139, Резонансные явления в наноразмерных электронных приборах (2009-2011).


    Руководитель проекта ФЦП «Исследования и разработки по приоритетным направлениям развития научно-технологического комплекса России на 2007-2013 годы»: 16.513.11.3129, Устройства обработки сигналов в терагерцевой области частот на основе низкоразмерных электронных систем и механически подвижных элементов микро- и наноразмеров (2011-2012).


    Основные публикации: 

    1. Ryzhii, V., Ryzhii, M., Otsuji, T., Karasik, V.E., Leiman, V.G., Mitin, V., Shur, M.S. Negative Terahertz Conductivity at Vertical Carrier Injection in a Black-Arsenic-Phosphorus-Graphene Heterostructure Integrated with a Light-Emitting Diode // IEEE Journal of Selected Topics in Quantum Electronics, 25 (6), № 8840921 (2019).
    2. Ryzhii, M., Otsuji, T., Karasik, V.E., Leiman, V., Shur, M.S., Ryzhii, V., Mitin, V. Characteristics of vertically stacked graphene-layer infrared photodetectors // Solid-State Electronics, 155, № 123-128 (2019). 
    3. Ryzhii, V., Ryzhii, M., Ponomarev, D.S., Leiman, V.G., Mitin, V., Shur, M.S., Otsuji, T. Negative photoconductivity and hot-carrier bolometric detection of terahertz radiation in graphene-phosphorene hybrid structures // Journal of Applied Physics, 125 (15), № 151608 (2019).
    4. Ryzhii, V., Ryzhii, M., Svintsov, D., Leiman, V., Maltsev, P.P., Ponomarev, D.S., Mitin, V., Shur, M.S., Otsuji, T. Real-space-transfer mechanism of negative differential conductivity in gated graphene-phosphorene hybrid structures: Phenomenological heating model // Journal of Applied Physics, 124 (11), № 114501 (2018).
    5. Ryzhii, V., Otsuji, T., Ryzhii, M., Ponomarev, D.S., Karasik, V.E., Leiman, V.G., Mitin, V., Shur, M.S. Electrical modulation of terahertz radiation using graphene-phosphorene heterostructures // Semiconductor Science and Technology, 33 (12), № 124010 (2018). 
    6. Gayduchenko, I.A., Fedorov, G.E., Moskotin, M.V., Yagodkin, D.I., Seliverstov, S.V., Goltsman, G.N., Yu Kuntsevich, A., Rybin, M.G., Obraztsova, E.D., Leiman, V.G., Shur, M.S., Otsuji, T., Ryzhii, V.I. Manifestation of plasmonic response in the detection of sub-terahertz radiation by graphene-based devices // Nanotechnology, 29 (24), № 245204 (2018). 
    7. Ryzhii, M., Otsuji, T., Ryzhii, V., Mitin, V., Shur, M.S., Fedorov, G., Leiman, V. Dynamic Conductivity and Two-Dimensional Plasmons in Lateral CNT Networks // International Journal of High Speed Electronics and Systems, 26 (1-2), № 1740004 (2017). 
    8. Ryzhii, V., Ryzhii, M., Leiman, V., Mitin, V., Shur, M.S., Otsuji, T. Effect of doping on the characteristics of infrared photodetectors based on van der Waals heterostructures with multiple graphene layers // Journal of Applied Physics, 122 (5), № 054505 (2017).
    9. M.Ryzhii, V.Ryzhii, T.Otsuji, P.P.Maltsev, V.G.Leiman, N.Ryabova, V.Mitin, Double injection, resonant-tunneling recombination, and current-voltage characteristics in double-graphene-layer structures // Journal of Applied Physics, 115, 024506 (2014).
    10. V.L.Semenenko, V.G.Leiman, A.V.Arsenin, V.Mitin, M.Ryzhii, T.Otsuji, V.Ryzhii, Self-consistent surface charges and electric field in p-i-n tunneling transit-time diodes based on single- and multiple-layer graphene structures // Journal of Physics: Conference Series 486, 012011 (2014).
    11. V.L.Semenenko, V.G.Leiman, A.V.Arsenin, V.Mitin, M.Ryzhii, T.Otsuji, V.Ryzhii, Effect of self-consistent electric field on characteristics of graphene p-i-n tunneling transit-time diodes // Journal of Applied Physics 113, 024503 (2013).
    12. V.Ryzhii, T.Otsuji, M.Ryzhii, V.G.Leiman, S.O.Yurchenko, V.Mitin, M.S.Shur, Effect of plasma resonances on dynamic characteristics of double graphene-layer optical modulator // Journal of Applied Physics 112, 104507 (2012).
    13. Yu.V.Stebunov, V.G.Leiman, V.L.Semenenko, A.V.Arsenin et. al. Graphene Nanoribbon Based AM Demodulator of Terahertz Radiation // Nano/Micro Engineered and Molecular Systems (NEMS), IEEE International Conference on, 990-994 (2012).
    14. V.L.Semenenko, V.G.Leiman, Yu.V.Stebunov, A.V.Arsenin et. al. Excitation of mechanical oscillations in double-carbon-nanotube system by terahertz radiation // Nano/Micro Engineered and Molecular Systems (NEMS), IEEE International Conference on, 854-858 (2012).
    15. Yu.Stebunov, V.Leiman, A.Arsenin, A.Gladun, V.Semenenko, V.Ryzhii, Detection of Modulated Terahertz Radiation Using Combined Plasma and Mechanical Resonances in Double-Carbon-Nanotube Device // Applied Physics Express, 4 (7), 075101 (2011).
    16. A.V.Arsenin, A.D.Gladun, V.G.Leiman, V.L.Semenenko, V.I.Ryzhii, Parametric instability in the resonance detector of terahertz radiation based on FET with cylindrical gate electrode // Journal of Communications Technology and Electronics, 56, 1242-1248 (2011).
    17. D.Yu.Fedyanin, A.V.Arsenin, V.G.Leiman and A.D.Gladun, Backward waves in planar insulator–metal–insulator waveguide structures // Journal of Optics, 12 (1), 015002 (2010).
    18. A.V.Arsenin, A.D.Gladun, V.G.Leiman, V.L.Semenenko, V.I.Ryzhii, Plasma oscillations of the two-dimensional electron gas in the field-effect transistor with a cylindrical gate electrode // Journal of Communications Technology and Electronics, 55, 1285-1294 (2010).
    19. Д.Ю.Федянин, А.В.Арсенин, В.Г.Лейман, А.Д.Гладун, Поверхностные плазмон-поляритоны с отрицательной и нулевой групповыми скоростями, распространяющиеся по тонким металлическим пленкам // Квантовая электроника, 39 (8), 745–750 (2009).
    20. A.V.Arsenin, A.D.Gladun, V.G.Leiman, V.L.Semenenko, V.I.Ryzhii, Parametric instability in a nanoelectromechanical detector of modulated terahertz radiation on the basis of a high electron mobility transistor with a mobile elastic gate // Journal of Communications Technology and Electronics, 54, 1322-1330 (2009).
    21. A.V.Arsenin, V.G.Leiman, V.P.Tarakanov, Collisionless electron heating in a very high frequency neutral loop discharge // Journal of Plasma and Fusion Research Series, 8, 1622-1625 (2009).
    22. V.G.Leiman, M.Ryzhii, A.Satou, N.Ryabova, V.Ryzhii, T.Otsuji, M.S.Shur, Analysis of resonant detection of terahertz radiation in high-electron mobility transistor with a nanostring/carbon nanotube as the mechanically floating gate // Journal of Applied Physics 104, 024514 (2008).
    23. V.G.Leiman, S.P.Litvintseva, I.D.Rodionov, Investigation of charged particle beam stability: numerical method and physical results // Journal of Computational Physics, 115, 86-106 (1994).

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