Browse Journals

[1] V. E. Zakharov and N. N. Filonenko, Appl. Mech. Tech. Phys. 4 (1967), 500-515.

[2] V. E. Zakharov, V. S. L’vov and G. Falkovich, Kolmogorov Spectra of Turbulence, Series in Nonlinear Dynamics, Springer-Verlag, New York, 1992.

[3] E. Kartashova, Physica D 46 (1990), 43-56.

[4] E. Kartashova, Physica D 54 (1991), 125-134.

[5] E. Kartashova, Phys. Rev. Lett. 72 (1994), 2013-2016.

[6] E. Kartashova, JETP Lett. 83 (2006), 341-345.

[7] E. Kartashova, EPL 87 (2009), 44001-1-5.

[8] E. Kartashova, Nonlinear Resonance Analysis, Cambridge University Press, 2010.

[9] A. N. Pushkarev, Eur. J. Mech. – B/Fluids 18(3) (1999), 345-351.

[10] V. E. Zakharov, A. O. Korotkevich, A. N. Pushkarev and A. I. Dyachenko, JETP Lett. 82 (2005), 487-491.

[11] M. Onorato, A. R. Osborne, M. Serio, D. Resio, A. Pushkarev, V. E. Zakharov and C. Brandini, Phys. Rev. Lett. 89 (2002), 144501-1-4

[12] S. Nazarenko, J. Stat. Mech.: Theor. Exp. (2006), L02002, doi:10.1088/1742-5468/2006/02/L02002.

[13] L. Deike, M. Berhanu and E. Falcon, Phys. Rev. E 85 (2012), 066311.

[14] S. Annenkov and V. Shrira, Phys. Rev. Lett. 107 (2011), 114502-1-4

[15] P. Denissenko, S. Lukaschuk and S. Nazarenko, Phys. Rev. Lett. 99 (2007), 014501-1-4.

[16] E. Kartashova, EPL 97 (2012), 30004.

[17] E. Kartashova, Phys. Rev. E 86 (2012), 041129.

[18] E. Kartashova, EPL 102 (2013), 44005.

[19] E. Tobisch, JETP 119(2) (2014), 359-365.

[20] D. Dutykh and E. Tobisch, EPL 107 (2014), 14001.

[21] D. Dutykh and E. Tobisch, Physica D 297 (2015), 76-87.

[22] D. Dutykh and E. Tobisch, 2014.

E-print: http://hal.archives-ouvertes.fr/hal-01070799/

[23] A. A. Vedenov, Theory of weakly nonlinear plasma, New York, Consultants Burea 3, 1967.

[24] A. N. Pushkarev and V. E. Zakharov, Physica D 135(1-2) (2000), 98-116.

[25] E. Kartashova and A. Kartashov, Fundamental and Applied Hydrophysics 6 (2013), 84-95.

[26] M. Shats, H. Punzmann and H. Xia, Phys. Rev. Lett. 104 (2010), 104503.

[27] M. Shats, H. Punzmann and H. Xia, EPL 91 (2010), 14002-1-6.

[28] E. Falcon, C. Laroche and S. Fauve, Phys. Rev. Lett. 98 (2007), 094503.

[29] I. Silberman, Meteorology 11 (1954), 27-34.

[30] E. A. Kartashova, L. I. Piterbarg and G. M. Reznik, Oceanology 29 (1990), 405-411.

[31] E. Kartashova and V. S. L’vov, Phys. Rev. Lett. 98 (2007), 198501-1-4.

[32] V. S. L’vov, A. Pomyalov, I. Procaccia and O. Rudenko, Phys. Rev. E 80 (2009), 066319.

[33] G. M. Reznik, L. I. Piterbarg and E. A. Kartashova, Dyn. Atm. Ocean. 18 (1993), 235-252.

[34] E. Kartashova, Phys. Rev. Lett. 98 (2007), 214502-1-4.

[35] A. D. Craik, Wave Interactions and Fluid Flows, Cambridge University Press, 1985.

[36] J. Pedlosky, Geophysical Fluid Dynamics, Springer-Verlag, New York, 1987.

[37] A. Kartashov and E. Tobisch, E-print: arXiv: 1307.8272.

[38] M. Bustamante and U. Hayat, Commun. Nonlinear Sci. Numer. Simulat. 18 (2013), 2402-2419.

[39] J. L. Hammack and D. M. Henderson, Ann. Rev. Fluid Mech. 25 (1993), 55-96.

[40] J. L. Hammack and D. M. Henderson, J. Offshore Mech. & Artic Eng. 125 (2003),  48-53.

[41] J. L. Hammack, D. M. Henderson and H. Segur, Fluid Mech. 532 (2005), 1-51.

[42] D. M. Henderson, M. S. Patterson and H. Segur, Fluid Mech. 559 (2006), 413-437.

[43] A. C. Newell and B. Rumpf, Ann. Rev. Fluid Mech. 43 (2011), 59-78.

[44] S. Kuksin, Randomly forced nonlinear PDEs and statistical hydrodynamics in 2 space dimensions, American Mathematical Society, 2006.

[45] S. Kuksin and A. Shirikyan, Mathematics of two-dimensional turbulence, Cambridge University Press, Cambridge, 2012.

[46] S. Kuksin and A. Maiocchi, E-prints: arXiv:1311.6794; arXiv:1311.6793; arXiv:1309.5022.

[47] S. Kuksin and A. Maiocchi, in: E. Tobisch, Editor, New Approaches to Nonlinear Waves, Lecture Notes in Physics (LNP) 908, Springer, 2015.

[48] M. Yamada and T. Yoneda, Physica D 245 (2013), 1-7.