Professor: Vladimir Zakharov
Turbulence and coherent structures in the integrable and nonintegrable systems
1. Zakharov, Vladimir E., Badulin, Sergei I., Geogjaev, Vladimir V. & Pushkarev, Andrey N. 2019 Weak-turbulent theory of wind-driven sea. Earth and Space Science 6.
2. Badulin, S. I. & Geogdzhaev, V. V. 2019 Evaluation of wind wave growth parameters basing on spectral fluxes. Radiophysics and Quantum Electronics 61 (8-9), 545552.
3. Badulin, S., Grigorieva, V., Gavrikov, A., Geogjaev, V., Krinitskiy, M. & Markina, M. 2018 Wave steepness from satellite altimetry for wave dynamics and climate studies. Russ. J. Earth. Sci. 18, ES5005.
4. Gnevyshev, Vladimir G. & Badulin, Sergei I. 2017 On the asymptotics of multidimensional linear wave packets: Reference solutions. Moscow University Physics Bulletin 72 (4), 415423.
5. Badulin, S. I. & Zakharov, V. E. 2017 Ocean swell within the kinetic equation for water waves. Nonl. Proc. Geophys. 24, 237253.
6. Grigorieva, V. G. & Badulin, S. I. 2016 Wind wave characteristics based on visual observations and satellite altimetry. Oceanology 56 (1), 1924.
7. Zakharov, V. E., Badulin, S. I., Hwang, P. A. & Caulliez, G. 2015 Universality of sea wave growth and its physical roots. J. Fluid Mech. 708, 503535.
8. Badulin, S. I. 2014 A physical model of sea wave period from altimeter data. J. Geophys. Res. Oceans 119.
9. Badulin, S. I. & Grigorieva, V. G. 2012 On discriminating swell and wind-driven
seas in voluntary observing ship data. J. Geophys. Res. 117 (C00J29).
10. Gagnaire-Renou, E., Benoit, M. & Badulin, S. I. 2011 On weakly turbulent scaling of wind sea in simulations of fetch-limited growth. J. Fluid Mech. 669, 178213.
11. Zakharov, V. E. & Badulin, S. I. 2011 On energy balance in wind-driven seas. Doklady Earth Sciences 440 (Part 2), 14401444
12. Badulin, S. I., Babanin, A. V., Resio, D. & Zakharov, V. 2007 Weakly turbulent laws of wind-wave growth. J. Fluid Mech. 591, 339378.
13. Badulin, S. I., Pushkarev, A. N., Resio, D. & Zakharov, V. E. 2005 Self-similarity of wind-driven seas. Nonl. Proc. Geophys. 12, 891946.
14. Badulin, S. I., Pushkarev, A. N., Resio, D. & Zakharov, V. E. 2004 Self-similarity of wind-wave spectra. numerical and theoretical studies. In Rogue Waves 2004 (ed. M. Olagnon & M. Prevosto), vol. 39, pp. 205214. Editions IFREMER, Brest.
15. Badulin, S. I., Shrira, V. I., Voronovich, A. G., Kozheloupova, N.G. & S.Yurezanskaya, Yu. 2003 Search for characteristics of deterministic dynamics in wind wave data. In Wind Over Waves II: Forecasting and Fundamentals of Applications (ed. S. G. Sajjadi & Lord J. C. R. Hunt), vol. 6, pp. 126139. Horwood Publishing Limited.
16. Badulin, S. I. & Lavrova, O. Yu. 2003 Possibility of current parameter retrieval from radar data. In SPIE 10th International Symposium, Remote Sensing 2003 . Barselona, Spain.
17. Badulin, S. I., Pushkarev, A. N., Resio, D. & Zakharov, V. E. 2002 Direct and inverse cascade of energy, momentum and wave action in wind-driven sea. In 7th International workshop on wave hindcasting and forecasting , pp. 92103. Banff, October 2002.
18. Badulin, S. I. & Annenkov, S. Yu. 2001 Multi-wave resonances and formation of high-amplitude waves in the ocean. In Rogue Waves 2000 (ed. M. Olagnon & G. Athanasoulis), vol. 32, pp. 205214. Editions IFREMER, Brest.
19. Shrira, V. I., Badulin, S. I. & Voronovich, A. G. 2000 EM scattering from sea surface in the presence of wind wave patterns. In Proceeding of International Geoscience and Remote Sensing Symposium , pp. 8184. Honolulu, July 2000.
20. Badulin, S. I., Lavrova, O. Yu. & Sabinin, K. D. 1999 Radar observation of internal wave and current. Inter. J. Rem. Sens. Envir. 68 (3), 261267.
21. Badulin, S. I. & Shrira, V. I. 1999 On the global dynamics in the simplest models of 3-d water wave patterns. Eur. J. Mech. B/Fluids 18 (3), 107120.
22. Lavrova, O. Yu., Sabinin, K. D. & Badulin, S. I. 1999 Radar observation of internal wave and current interactions. In Proceeding of International Geoscience and Remote Sensing Symposium , pp. 159161. IGARSS’99, Hamburg, Germany, June 28 – July 02.
23. Badulin, S. I., Shrira, V. I. & Kharif, C. 1996 A model of water wave ‘horseshoe’ patterns. J. Fluid Mech. 318, 375405.
24. Badulin, S. I., Shrira, V. I., Kharif, C. & Ioualalen, M. 1995 On two approaches to the problem of instability of short-crested water waves. J. Fluid Mech. 303, 297325.
25. Kharif, C., Badulin, S. I. & Shrira, V. I. 1995 Instabilities of nite amplitude short-crested free surface waves. In Nonlinear Waves (ed. A. Mielke), pp. 126139. World Scientic Publishing.
26. Badulin, S. I. & Shrira, V. I. 1993 On the irreversibility of internal wave dynamics owing to trapping by large-scale ow nonuniformity. J. Fluid Mech. 251, 2153.
27. Badulin, S. I., Vasilenko, V. M. & Yaremchuk, M. I. 1991 Interpretation of quasi-inertial motions using Megapoligon data as an example. Izv. Atmos. Ocean. Phys. 27 (6), 46452.
28. Badulin, S. I., Vasilenko, V. M. & Golenko, N. N. 1990 Transformation of internal waves in the equatorial Lomonosov current. Izv. Atmos. Ocean. Phys. 26 (2), 110117.
29. Badulin, S. I. & Shrira, V. I. 1989 Transformation of internal wave spectra in horizontally nonuniform large-scale currents. Okeanologiya XXIX (3), 372379.
30. Badulin, S. I., Voropaev, S. I., Kulikov, A. B. & Rosenberg, A. D. 1988 Transformation of internal waves in the equatorial Lomonosov current. Okeanologiya XXVIII (4), 551560.
31. Badulin, S. I. & Shrira, V. I. 1985 The trapping of internal waves by horizontally inhomogeneous currents of arbitrary geometry. Izv. Atmos. Ocean. Phys. 21 (9), 982992.
32. Badulin, S. I., Shrira, V. I. & Tsimring, L. Sh. 1985 The trapping and vertical focusing of internal waves in a pycnocline due to horizontal inhomogeneities of density and currents. J. Fluid Mech. 158, 199218.
33. Badulin, S. I., Pokazeev, K. V. & Rozenberg, A. D. 1983a On the trapping and vertical focusing of internal waves in a pycnocline due to horizontal inhomogeneities of stratication and current. Soviet Phys. Dokl. 273, 459463.
34. Badulin, S. I., Pokazeev, K. V. & Rozenberg, A. D. 1983b The trapping and vertical focusing of internal waves in a pycnocline due to horizontal inhomogeneities of density and currents. Izv. Atmos. Ocean. Phys. 19 (10), 10351041.
19761982 Department of Aerophysics and Space Research, Moscow Institute of Physics and Technology, Moscow, USSR; MSc Honours Degree (option: aero- and thermodynamics)
19831985 Moscow Institute of Physics and Technology, Moscow, USSR; PhD in Physics and Mathematics
1985 PhD thesis in physics and mathematics “Transformation of internal waves in
inhomogeneities of hydrological fields of the ocean”;
2009 D.Sc. thesis “Dynamics of surface and internal gravity waves for the problem
of monitoring and forecasting sea waves”;
19831985 Supplementary language studies, State Language Extramural Courses,
Department of French Language