Publications

2013

  • Troitskaya Yu.I.; Ezhova E.V., and Zilitinkevich S.S. Momentum and buoyancy transfer in atmospheric turbulent boundary layer over wavy water surface – Part 1: Harmonic wave // Nonlinear Processes in Geophysics, 2013, V. 20, No. 5, P. 825–839.
  • Troitskaya Yu.I., Ezhova E.V., Sergeev D.A., Kandaurov A.A., Baidakov G.A., Vdovin M.I., and Zilitinkevich S.S. Momentum and buoyancy transfer in atmospheric turbulent boundary layer over wavy water surface – Part 2: Wind-wave spectra // Nonlinear Processes in Geophysics, 2013, V. 20, No. 5, P. 841–856.
  • Nazarov V.V., Starodubtsev M.V., and Kostrov A.V. Laboratory studies of the dynamic of resonance cones formation in magnetized plasmas // Physics of Plasmas, 2013, V. 20, No. 3, P. 032110 (1–10).
  • Гойхман М.Б., Громов А.В., Марьев С.П., Палицин А.В., Родин Ю.В., Фильченков С.Е. «Метод измерения спектра микроволновых импульсов, основанный на обработке огибающих сигналов, прошедших через полосно-пропускающие фильтры» // Электромагнитные волны и электронные системы, 2013, Т. 18. № 11, С. 51–57.

2014

  • Troitskaya Y., Sergeev D., Druzhinin O., Kandaurov A., Ermakova O., Ezhova E., Zilitinkevich S., and Esau I. Atmospheric boundary layer over steep surface waves // Ocean Dynamics, 2014, V. 64, No. 8, P. 1153–1161.
  • Kandaurov A.A., Troitskaya Y.I., Sergeev D.A., Vdovin M.I., Baidakov G.A. «Average velocity field of the air flow over the water surface in a laboratory modeling of storm and hurricane conditions in the ocean» // Izvestiya. Atmospheric and Oceanic Physics., 2014. V. 50. N 4. P. 399-410.
  • Goykhman M.B., Kladukhin V.V., Kladukhin S.V., Kovalev N.F., Kolganov N.G., Khramtsov S.P. A high power relativistic backward wave oscillator with a longitudinal slot slow-wave system // Technical Physics Letters, 2014, V. 40, No. 1, P. 84–86.
  • Goykhman M.B., Gromov A.V., Kladukhin V.V., Kovalev N.F., Kolganov N.G., Palitsin A.V. On using cyclotron waves for output of radiation from high-power relativistic backward-wave oscillators // Radiophysics and Quantum Electronics, 2014, V. 57, No. 4, P. 269–274.

2015

  • Sergeev D.A., Kandaurov A.A., Vdovin M.I., Troitskaya Y.I. Studying of the surface roughness properties by visualization methods within laboratory modeling of the atmospheric-ocean interaction» // Scientific Visualization, 2015, V. 7, N. 5, P. 109–121.
  • Troitskaya Y., Ermoshkin A., Zuikova E., Kazakov V., Sergeev D., Kandaurov A., and Abramov V. Cross-polarization geophysical model function for marine wind speed retrieval: Laboratory modeling and examples of hurricane wind speed retrieval from satellite imagery // IEEE International Geoscience and Remote Sensing Symposium, IGARSS 2015 – Proceedings, 2015, P. 2533–2536.
  • Aidakina N.A., Gushchin M.E., Zudin I.Yu., Korobkov S.V., Kostrov A.V., Strikovskii A.V. Cross-modulation of whistler waves in a magnetized plasma // JETP Letters, 2015, V. 101, No. 4, P. 236-239.
  • Frolov V.L., Rapoport V.O., Shorokhova E.A., Aidakina N.A., Gushchin M.E., Zudin I.Yu., Korobkov S.V., Kostrov A.V., Parrot M., Rauch J.-L. Fine structure of density ducts formed by active radiofrequency action on laboratory and space plasmas // JETP Letters, 2015, V. 101, No. 5, P. 313-317.
  • Varfolomeev A.A., Gushchin M.E., Korobkov S.V., Kostrov A.V., Palochkin Yu.P., Priver S.E., Odzerikho D.A., Strikovskii A.V. Engine-driven electrization of aircraft as a radio interference source // Technical Physics Letters, 2015, V. 41, No. 1, P. 14-17.

2016

  • Troitskaya Y., Ermoshkin A., Zuikova E., Kazakov V., Sergeev D., Kandaurov A., Ermakova O., and Abramov V. Laboratory study of cross-polarized radar return under gale-force wind conditions // International Journal of Remote Sensing, 2016, V. 37, No. 9, P.1981–1989.
  • Troitskaya Yu.I., Abramov V.I., Ermoshkin A.V., Zuikova E.M., Kazakov V.I., Sergeev D.A., Kandaurov A.A. , Ermakova O.S. «Laboratory simulation of back-scattering of microwaves at the sea surface at strong and hurricane winds» // Sovremennye problemy distantsionnogo zondirovaniya Zemli iz kosmosa, 2016, Vol. 13, No. 4, pp. 45-59
  • Troitskaya Yu.I. , Abramov V.I. , Ermoshkin A.V. , Zuikova E.M. , Kazakov V.I. , Sergeev D.A. , Kandaurov A.A. , Ermakova O.S. «On reconstruction of turbulent momentum flux in the atmospheric boundary layer under strong wind and hurricane conditions from measurements of sea surface microwave backscatter cross section on orthogonal polarization» // Sovremennye problemy distantsionnogo zondirovaniya Zemli iz kosmosa, 2016, Vol. 13, No. 6, pp. 63-74.
  • Chernyshov A.A., Chugunin D.V., Mogilevsky M.M., Moiseenko I.L., Ilyasov A.A., Vovchenko V.V., Pulinets S.A., Klimenko M.V., Zakharenkova I.E., Kostrov A.V., Gushchin M.E., Korobkov S.V. Approaches to studying the multiscale ionospheric structure using nanosatellites // Geomagnetism and Aeronomy, 2016, V. 56, No. 1, P. 72–79.
  • Чернышов А.А., Чугунин Д.В., Могилевский М.М., Моисеенко И.Л., Костров А.В., Гущин М.Е., Коробков С.В., Янин Д.В. «Изучение неоднородной структуры ионосферы при помощи одновременных измерений наноспутниками стандарта CubeSat» // Изв. вузов. Приборостроение, 2016, Т. 59, № 6, С. 443–449.
  • Starodubtsev M.V., Nazarov V.V., Gushchin M.E., and Kostrov A.V. Laboratory modeling of ionospheric heating experiments // Journal of Geophysical Research: Space Physics, 2016, V. 121, No. 10, P. 10481–10495.
  • Goikhman M.B., Gromov A.V., Kovalev N.F., Palitsin A.V. Limiting and Fedosov’s currents of a strongly magnetized electron beam in asymmetric transportation channels // Radiophysics and Quantum Electronics, 2016, V. 59, No. 7, P. 592–595.
  • Glyavin M.Yu., Goykhman M.B., Gromov A.V., Palitsin A.V., Panin A.N., Rodin Yu.V., and Fil’chenkov S.E. A waveguide high-pass filter system for measuring the spectrum of pulsed terahertz sources // Infrared Physics and Technology, 2016, V. 76, P. 11–20.
  • Фукс М.И., Шамильоглы И., Ковалев Н.Ф. «Этапы развития релятивистских магнетронов» // Изв. вузов. Прикладная нелинейная динамика, 2016, Т. 24. № 6, C. 39–53.

2017

  • Troitskaya Yu., Kandaurov A., Ermakova O., Kozlov D., Sergeev D., and Zilitinkevich S. Bag-breakup fragmentation as the dominant mechanism of sea-spray production in high winds // Scientific Reports, 2017, V. 7, P. 1614(1–4).
  • Troitskaya Yu. I., Ermakova O. S., Kandaurov A. A., Kozlov D. S., Sergeev D. A., Zilitinkevich S. S. «Fragmentation of the “bag-breakup” type as a mechanism of the generation of sea spray at strong and hurricane winds» // Doklady Earth Sciences, 2017, V. 477, P. 1330–1335.
  • Troitskaya Yu. I., Ermakova O. S., Kandaurov A. A., Kozlov D. S., Sergeev D. A., Zilitinkevich S. S. «Non-monotonous dependence of the ocean surface drag coefficient on the hurricane wind speed due to the fragmentation of the ocean-atmosphere interface» // Doklady Earth Sciences, 2017, V. 477, P. 1373–1378.
  • Kandaurov A.A., Sergeev D.A. , Ermakova O.S. , Troitskaya Yu.I. «Investigation of the mechanisms of spray generation induced by wind-wave interaction using shadow technique» // Scientific Visualization, 2017, V. 9, N. 3, P. 103–107.
  • Abramov V. I., Zuikova E. M., Sergeev D. A., Troitskaya Yu. I., Ermoshkin A. V., Kazakov V. I. «Polarized X-band Doppler radar scatterometer for investigation of microwave scattering of the wavy water surface in laboratory conditions» // Radioelectronics and Communications Systems, 2017, V. 60, N. 9, P. 503–514.
  • Strikovskiy A.V., Evtushenko A.A., Gushchin M.E., Korobkov S.V., Kostrov A.V. Pulsed high-voltage discharge in air with a pressure gradient // Plasma Physics Reports, 2017, V. 43, No. 10, P. 1031–1038.
  • Zudin I.Yu., Aidakina N.A., Gushchin M.E., Zaboronkova T.M., Korobkov S.V., Kostrov A.V. Numerical simulation of whistler waves in magnetized plasma with small-scale irregularities // Plasma Physics Reports, 2017, V. 43, No. 12, P. 1179–1188.
  • Goykhman M.B., Gromov A.V., Kovalev N.F., Palitsin A.V. Equivalent schemes of a resistive hot-carrier sensor for measurements of the parameters of output radiation of relativistic microwave generators // Radiophysics and Quantum Electronics, 2017, Vol. 59, No. 10, P. 806–811.
  • Goikhman M.B., Gromov A.V., Kovalev N.F. Low-frequency instabilities of electron beams in weakly irregular transportation channels // Radiophysics and Quantum Electronics, 2017, Vol. 60, No. 2, P.128–135.
  • Goykhman M.B., Gromov A.V., Kladukhin V.V., Kovalev N.F., Kolganov N.G., Palitsin A.V. Axisymmetric resonance reflector for relativistic gigawatt backward-wave oscillators // Radiophysics and Quantum Electronics, 2017, V. 60, No. 6, P. 494–500.

2018

  • Sergeev D.A., Druzhinin O.A., Troitskaya Y.I., Vdovin M.I., Kandaurov A.A., Tsai W.T. Laboratory and Numerical Modeling of a Stably Stratified Wind Flow over a Water Surface // Moscow University Physics Bulletin. 2018. V. 73. N 6. P. 710-715.
  • Troitskaya Y., Kandaurov A., Ermakova O., Kozlov D., Sergeev D., Zilitinkevich S. The “Bag Breakup” Spume Droplet Generation Mechanism at High Winds. Part I: Spray Generation Function // Journal of Physical Oceanography. 2018. Т. 48. № 9. С. 2168-2188.
  • Troitskaya Y., Druzhinin O., Kozlov D., Zilitinkevich S. The “Bag Breakup” Spume Droplet Generation Mechanism at High Winds. Part II: Contribution to Momentum and Enthalpy Transfer // Journal of Physical Oceanography. 2018. Т. 48. № 9. С. 2189-2207.
  • Troitskaya Y., Abramov V., Baidakov G., Ermakova O., Zuikova E., Sergeev D., Ermoshkin A., Kazakov V., Kandaurov A., Rusakov N., Poplavsky E., Vdovin M. Cross‐Polarization GMF for High Wind Speed and Surface Stress Retrieval // Journal of Geophysical Research: Oceans. 2018. Т. 123. № 8. С. 5842-585
  • Sergeev D.A., Vdovin M.I., Troitskaya Yu. I. Investigation of the processes of heat exchange between the atmosphere and the ocean in a wide range of conditions // Processes in GeoMedia, 2018. N 3 (17). P. 307-308.
  • Aidakina N.A., Galka A.G., Gundorin V.I., Gushchin M.E., Zudin I.Yu., Korobkov S.V., Kostrov A.V., Loskutov K.N., Mogilevskiy M.M., Priver S.E., Strikovskiy A.V., Chugunin D.V., Yanin D.V. Simulation of physical phenomena in the ionosphere and magnetosphere of the Earth on Krot plasma device. Some results and prospects // Geomagnetism and Aeronomy, 2018, V. 58, No. 3, P. 314–324.
  • Aidakina N., Gushchin M., Zudin I., Korobkov S., and Strikovskiy A. Laboratory study of the interaction of magnetoplasma irregularities produced by several radio-frequency heating sources // Physics of Plasmas. 2018. V. 25. No. 7. P. 072114 (1–13).
  • Aidakina N., Gushchin M., Zudin I., Korobkov S., and Strikovskiy A. Density irregularities, currents, and magnetic fields generated by pulsed local rf heating of a magnetoplasma: Disturbances in rf antenna vicinity // Physics of Plasmas. 2018. V. 25. No. 12. P. 122104 (1–15).
  • Gushchin M.E., Korobkov S.V., Terekhin V.A., Strikovskiy A.V., Gundorin V.I., Zudin I.Yu., Aidakina N.A., Nikolenko A.S. Laboratory simulation of the dynamics of a dense plasma cloud expanding in a magnetized background plasma on a Krot large-scale device // JETP Letters, 2018, V. 108, No. 6, P. 391–395.
  • A. V. Palitsin, M. B. Goykhman, A. V. Gromov, and N. F. Kovalev. Wave beams of short radio pulses generated by gigawatt microwave sources // EPJ Web of Conferences. 2018. V. 187. P. 01013(1–2). DOI: 10.1051/epjconf/201818701013
  • Gromov A.V., Goykhman M.B., Kovalev N.F., Palitsin A.V., Fuks M.I., Schamiloglu E. The low-energy state of an electron beam in a coaxial diode with a homogeneous anode and inhomogeneous magnetic field profile // Technical Physics Letters, 2018, V. 44, No. 10, P. 949–952.

2019

  • Polnikov V.G., Baidakov G.A., Troitskaya Y.I. Dissipation Rate of Turbulence in a Water Layer under Wind Waves Based on Data of a Laboratory Experiment // Izvestiya. Atmospheric and Oceanic Physics. 2019. V. 55. N 5. P. 492-501.
  • Troitskaya Y., Sergeev D., Kandaurov A., Vdovin M., Zilitinkevich S. The Effect of Foam on Waves and the Aerodynamic Roughness of the Water Surface at High Winds // Journal of Physical Oceanography. 2019. Т. 49. № 4. С. 959-981.
  • Troitskaya Yu.I., Druzhinin O.A., Ermakova O.S., Kandaurov A.A., Kozlov D.S., Sergeev D.А. Investigation of the mechanisms of generation of sea sprays during strong winds, their role in the mechanics and thermodynamics of hurricanes // Journal of Oceanological Research. 2019. V. 47 N. 3. P. 164-187.
  • Korobkov S.V., Gushchin M.E., Strikovskiy A.V., Loskutov K.N., Evtushenko A.A. Study of a pulsed air flow in a large vacuum chamber by means of a commercial ionization gauge // Technical Physics, 2019, V. 64, No. 1, P. 27–33.
  • Korobkov S.V., Gushchin M.E., Gundorin V.I., Zudin I.Yu., Aidakina N.A., Strikovskiy A.V., Nikolenko A.S. A simple design erosional plasma gun made of a coaxial cable with polyethylene insulation // Technical Physics Letters, 2019, V. 45, No. 3, P. 228–231.
  • Zudin I.Yu., Zaboronkova T.M., Gushchin M.E., Aidakina N.A., Korobkov S.V., and Krafft C. Whistler waves' propagation in plasmas with systems of small-scale density irregularities: Numerical simulations and theory // Journal of Geophysical Research: Space Physics. 2019. V. 124. DOI: 10.1029/2019JA026637
  • Strikovskiy A.V., Korobkov S.V., Gushchin M.E., Evtushenko A.A., Zudin I.Yu. Parameters of the plasma of a large-scale high-voltage discharge in air at reduced pressures // Plasma Physics Reports, 2019, V. 45, No. 6, P. 527–536.
  • Starodubtsev M., Korobkov S., Gushchin M., Grach S., and Nazarov V. Ducting of upper-hybrid waves by density depletions in a magnetoplasma with weak spatial dispersion // Physics of Plasmas, 2019, V. 26, No. 7, P. 072902 (1–10).
  • Zudin I., Aidakina N., Gushchin M., Zaboronkova T., Korobkov S., and Strikovskiy A. The dynamics and ducting properties of small-scale magnetoplasma irregularities: Laboratory modeling and numerical simulation // IEEE Proceedings of Russian Open Conference on Radio Wave Propagation (RWP), 2019. P. 289–291.
  • Gushchin M.E., Korobkov S.V., Strikovskiy A.V., Aidakina N.A., Zudin I.Yu., Terekhin V.A., Terekhin A.V., Soldatov A.V., Belov A.S. Transformation of an ultra-wideband electromagnetic pulse in the process of its propagation through a large laboratory plasma // AIP Advances, 2019, V. 9, No. 12, P. 125051 (1-6).
  • Gojkhman M.B., Gromov A.V., Palitsin A.V., Rodin Yu.V. Tunable band-close waveguide filter. Russian Federation Patent RU 2 696 817 C1.