RUS  ENG
Full version
JOURNALS // Teplofizika vysokikh temperatur
TVT, 2001, Volume 39, Issue 6, Pages 949–953 (Mi tvt2001)
Amplification of vortex and temperature waves in the process of induced scattering of sound in thermodynamically nonequilibrium media
N. E. Molevich

This publication is cited in the following articles:
  1. Claudio Rapisarda, Matthew McGilvray, Luca di Mare, “Propagation and attenuation of sound waves in partially ionised and dissociated plasma flows”, J. Fluid Mech., 1011 (2025)  crossref
  2. Anna Perelomova, “Atypical Self‐Action of Axisymmetric Magnetoacoustic Beams Containing Shock Fronts”, Contrib. Plasma Phys, 2025  crossref
  3. A. Perelomova, “Unusual divergence of magnetoacoustic beams”, Physics of Plasmas, 29:4 (2022)  crossref
  4. Anna Perelomova, “Relations between magnetosonic perturbations as an indicator of a magnetosonic exciter and equilibrium parameters of a plasma”, Contributions to Plasma Physics, 62:8 (2022)  crossref
  5. Perelomova A., “Magnetoacoustic Heating of Plasma Caused By Periodic Magnetosound Perturbations With Discontinuities in a Quasi-Isentropic Magnetic Gas”, Arch. Acoust., 45:2 (2020), 241–251  crossref  isi  scopus
  6. Perelomova A., “Excitation of Non-Wave Modes By Sound of Arbitrary Frequency in a Chemically Reacting Gas”, Acta Acust. United Acust., 105:6 (2019), 918–927  crossref  isi
  7. Perelomova A., “Impact of Boundary Conditions on Acoustic Excitation of Entropy Perturbations in a Bounded Volume of Newtonian Gas”, Arch. Acoust., 44:2 (2019), 321–328  crossref  isi  scopus
  8. Perelomova A., “Instantaneous Heating and Cooling Caused By Periodic Or Aperiodic Sound of Any Characteristic Duration in a Gas With Vibrational Relaxation”, Acta Acust. United Acust., 103:4 (2017), 607–615  crossref  isi  scopus
  9. Perelomova A., “the Nonlinear Effects of Sound in a Liquid With Relaxation Losses”, Can. J. Phys., 93:11 (2015), 1391–1396  crossref  isi  elib
  10. Zavershinskiy D.I., Molevich N.E., “Parametrical Amplification of Alfven Waves in Heat-Releasing Ionized Media With Magnetoacoustic Instability”, Astrophys. Space Sci., 358:1 (2015), 22  crossref  isi  elib
  11. Perelomova A., “Thermal Self-Action Effects of Acoustic Beam in a Vibrationally Relaxing Gas”, Appl. Math. Model., 38:23 (2014), 5684–5691  crossref  mathscinet  isi  elib
  12. Zavershinsky D.I., Molevich N.E., “Alfven Wave Amplification as a Result of Nonlinear Interaction With a Magnetoacoustic Wave in An Acoustically Active Conducting Medium”, Tech. Phys. Lett., 40:8 (2014), 701–703  crossref  isi  elib
  13. Perelomova A., “Self-Refraction of Acoustic Pulses With Shock Fronts in Some Nonequilibrium Media”, Can. J. Phys., 92:5 (2014), 401–405  crossref  isi  elib
  14. D. I. Zavershinskii, N. E. Molevich, “Parametricheskoe vzaimodeistvie sonapravlennykh magnitoakusticheskoi i alfvenovskoi voln v usloviyakh magnitoakusticheskoi neustoichivosti”, Kompyuternaya optika, 37:4 (2013), 410–414  mathnet
  15. Anna Perelomova, “Hysteresis curves and loops for harmonic and impulse perturbations in some non-equilibrium gases”, Open Physics, 11:11 (2013)  crossref
  16. Anna Perelomova, “Acoustic field and the entropy mode induced by it in a waveguide filled with some non-equilibrium gases”, Open Physics, 11:3 (2013), 380  crossref
  17. Nonna E. Molevich, Anatoly I. Klimov, Vladimir G. Makaryan, “Influence of Thermodynamic Nonequilibrium on the Acoustic Properties of Gases”, International Journal of Aeroacoustics, 4:3 (2005), 373  crossref

© Steklov Math. Inst. of RAS, 2025