Naveed Iqbal, Meshari Alesemi, “Least-square-based transform methods for analytical solutions of fractional-order nonlinear (1+1)-dimensional dynamics equations”, Ain Shams Engineering Journal, 16:9 (2025), 103535
I. Y. Vasko, F. S. Mozer, T. Bowen, J. Verniero, X. An, A. V. Artemyev, S. D. Bale, J. W. Bonnell, J. Halekas, I. V. Kuzichev, “Resonance of Low-frequency Electromagnetic and Ion-sound Modes in the Solar Wind”, ApJL, 967:2 (2024), L31
S. V. Kostrykin, I. G. Yakushkin, “Stationary Regimes and Parametrization of Ekman Friction in the Karman Model of Flow Induced by External Vortical Body Force”, Izv. Atmos. Ocean. Phys., 60:2 (2024), 109
Sergey N. Gurbatov, Oleg V. Rudenko, Nonlinear Acoustics, 2024, 371
Ivan G. Yakushkin, “On the structural description of random fields”, Waves in Random and Complex Media, 33:5-6 (2023), 1195
I. G. Yakushkin, “On Coherent and Stochastic Structures in Hydrodynamic Flows with a Velocity Shift”, Izv. Atmos. Ocean. Phys., 58:1 (2022), 7
Shadab Alam, P. K. Sahu, Mahendra K. Verma, “Universal functions for Burgers turbulence”, Phys. Rev. Fluids, 7:7 (2022)
O. V. Rudenko, Yu. N. Makov, “Sonic Boom: From the Physics of Nonlinear Waves to Acoustic Ecology (a Review)”, Acoust. Phys., 67:1 (2021), 1
Ulugbek Turdiyev, Kholmatzhon Imomnazarov, INTERNATIONAL UZBEKISTAN-MALAYSIA CONFERENCE ON “COMPUTATIONAL MODELS AND TECHNOLOGIES (CMT2020)”: CMT2020, 2365, INTERNATIONAL UZBEKISTAN-MALAYSIA CONFERENCE ON “COMPUTATIONAL MODELS AND TECHNOLOGIES (CMT2020)”: CMT2020, 2021, 070002
S G Chefranov, A S Chefranov, “Exact solution of the compressible Euler–Helmholtz equation and the millennium prize problem generalization”, Phys. Scr., 94:5 (2019), 054001
O. V. Rudenko, S. N. Gurbatov, “Statistical Problems for the Generalized Burgers Equation: High-Intensity Noise in Waveguide Systems”, Dokl. Math., 97:1 (2018), 95
S. N. Gurbatov, O. V. Rudenko, A. V. Tyurina, “Transformation of High-Frequency Noise in the Field of a Shockwave”, Acoust. Phys., 64:5 (2018), 555
O.V. Rudenko, S.N. Gurbatov, A.V. Tyurina, “Evolution of weak noise and regular waves on dissipative shock fronts described by the Burgers model”, Wave Motion, 82 (2018), 20
S. V. Kostrykin, “Steady Flow Regimes in the Problem of Intense Wind-Driven Circulation in a Thin Layer of Viscous Rotating Fluid”, J. Exp. Theor. Phys., 127:1 (2018), 167
O. V. Rudenko, “Inhomogeneous Burgers equation with modular nonlinearity: Excitation and evolution of high-intensity waves”, Dokl. Math., 95:3 (2017), 291
К. П. Зыбин, А. С. Ильин, “Свойства турбулентности, возникающей под воздействием внешней случайной силы в модели Бюргерса”, УФН, 186:12 (2016), 1349–1353; K. P. Zybin, A. S. Il'yn, “Properties of turbulence driven by random external force in the Burgers model”, Phys. Usp., 59:12 (2016), 1241–1244
Michael B. Muhlestein, Kent L. Gee, Tracianne B. Neilsen, Derek C. Thomas, “Evolution of the average steepening factor for nonlinearly propagating waves”, The Journal of the Acoustical Society of America, 137:2 (2015), 640
D. E. Pelinovsky, E. N. Pelinovsky, E. A. Kartashova, T. G. Talipova, A. Giniyatullin, “Universal power law for the energy spectrum of breaking Riemann waves”, Письма в ЖЭТФ, 98:4 (2013), 265–269; JETP Letters, 98:4 (2013), 237–241
Gregory D. Fleishman, Igor N. Toptygin, Astrophysics and Space Science Library, 388, Cosmic Electrodynamics, 2013, 163
O. V. Rudenko, S. N. Gurbatov, I. Yu. Demin, “Nonlinear noise waves in soft biological tissues”, Acoust. Phys., 59:5 (2013), 584
M. B. Gokhberg, E. V. Ol'shanskaya, G. M. Steblov, S. L. Shalimov, “The Chelyabinsk meteorite: Ionospheric response based on GPS measurements”, Dokl. Earth Sc., 452:1 (2013), 948
С. Н. Гурбатов, А. И. Саичев, С. Ф. Шандарин, “Крупномасштабная структура Вселенной. Приближение Зельдовича и модель слипания”, УФН, 182:3 (2012), 233–261; S. N. Gurbatov, A. I. Saichev, S. F. Shandarin, “Large-scale structure of the Universe. The Zeldovich approximation and the adhesion model”, Phys. Usp., 55:3 (2012), 223–249
Victor B. Efimov, Andrei N. Ganshin, Peter V. E. McClintock, “Second-sound acoustic turbulence in superfluid helium: Decay of the direct and inverse energy cascades”, Phys. Rev. B, 86:5 (2012)
O. V. Rudenko, S. N. Gurbatov, “Noise signal propagation in soft biological tissues”, Acoust. Phys., 58:2 (2012), 243
S. N. Gurbatov, O. V. Rudenko, A. I. Saichev, Nonlinear Physical Science, Waves and Structures in Nonlinear Nondispersive Media, 2011, 247
S. N. Gurbatov, O. V. Rudenko, A. I. Saichev, Nonlinear Physical Science, Waves and Structures in Nonlinear Nondispersive Media, 2011, 309
S. N. Gurbatov, O. V. Rudenko, A. I. Saichev, Nonlinear Physical Science, Waves and Structures in Nonlinear Nondispersive Media, 2011, 153
J. Janno, L. V. Wolfersdorf, “Integro-differential equations of the first order with autoconvolution integral”, J. Integral Equations Applications, 21:1 (2009)
V. B. Efimov, A. Ganshin, P. V. E. McClintock, “Statistical properties of strongly nonlinear waves within a resonator”, Phys. Rev. E, 78:6 (2008)
L. A. Ostrovsky, “Nonlinear Acoustics in Nizhni Novgorod (A Review)”, Acoust. Phys., 51:2 (2005), 114
T. Buchert, A. Domínguez, “Adhesive gravitational clustering”, A&A, 438:2 (2005), 443
V. Yu. Osipov, “Chaotization and decay instability of a diffraction-catastrophe field in the presence of focusing of high-power laser radiation in a nonlinear medium”, Tech. Phys., 43:9 (1998), 1075
V.I. Yukalov, “Local stability of dynamical processes in random media”, Physica A: Statistical Mechanics and its Applications, 234:3-4 (1997), 725
Sergei E. Esipov, “Energy decay in Burgers turbulence and interface growth: The problem of random initial conditions. II”, Phys. Rev. E, 49:3 (1994), 2070
Toshiyuki Gotoh, “Inertial range statistics of Burgers turbulence”, Physics of Fluids, 6:12 (1994), 3985
S. N. Gurbatov, A. I. Saichev, “Inertial nonlinearity and chaotic motion of particle fluxes”, Chaos: An Interdisciplinary Journal of Nonlinear Science, 3:3 (1993), 333
Erik Aurell, Sergey N. Gurbatov, Igor I. Wertgeim, “Self-preservation of large-scale structures in Burgers' turbulence”, Physics Letters A, 182:1 (1993), 109
S. Gurbatov, A. Saichev, S. Shandarin, Research Reports in Physics, Nonlinear Waves 3, 1990, 9
Л. А. Калякин, “Длинноволновые асимптотики. Интегрируемые уравнения
как асимптотический предел нелинейных систем”, УМН, 44:1(265) (1989), 5–34; L. A. Kalyakin, “Long wave asymptotics. Integrable equations as asymptotic limits of non-linear systems”, Russian Math. Surveys, 44:1 (1989), 3–42
S. N. Gurbatov, A. I. Saichev, S. F. Shandarin, Research Reports in Physics, Nonlinear Waves in Active Media, 1989, 60
S. N. Gurbatov, A. I. Saichev, “One-dimensional turbulence in a viscous polytropic gas”, Radiophys Quantum Electron, 31:12 (1988), 1043
S. N. Gurbatov, A. N. Malakhov, N. V. Pronchatov-Rubtsov, “Evolution of higher-order spectra of nonlinear random waves”, Radiophys Quantum Electron, 29:6 (1986), 523
О. В. Руденко, “Взаимодействия интенсивных шумовых волн”, УФН, 149:3 (1986), 413–447; O. V. Rudenko, “Interactions of intense noise waves”, Phys. Usp., 29:7 (1986), 620–641
I. G. Yakushkin, “Intensity fluctuations during small-angle scattering of wave fields (review)”, Radiophys Quantum Electron, 28:5 (1985), 365
; K. P. Zybin, A. S. Il'yn, “Properties of turbulence driven by random external force in the Burgers model”, Phys. Usp., 59:12 (2016), 
