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Issue 4, 2024
Volume year page
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PACS numbers

43.25.+y Nonlinear acoustics 47.40.Nm Shock wave interactions and shock effects 87.54.Hk Sound and ultrasound therapy/lithotripsy
  1. R.I. Nigmatulin, R.T. Lahey (Jr.) et alOn thermonuclear processes in cavitation bubbles57 877–890 (2014)
    28.52.−s, 47.40.Nm, 52.50.Lp (all)
  2. O.V. Rudenko “Nonlinear dynamics of quadratically cubic systems56 683–690 (2013)
    02.30.Jr, 05.45.−a, 42.65.−k, 43.25.+y (all)
  3. Electromagnetic and acoustic waves in metamaterials and structures (Scientific session of the Physical Sciences Division of the Russian Academy of Sciences, 24 February 2011)54 1161–1192 (2011)
    01.10.Fv, 03.65.Xp, 41.20.Jb, 42.25.−p, 43.20.+g, 43.20.Dk, 43.20.Fn, 43.25.+y, 43.30.+m, 43.60.−c, 43.60.Pt, 78.20.Ci, 78.67.−n, 81.05.Xi, 81.05.Zx, 87.50.Y (all)
  4. I.B. Esipov “Developments in physical acoustics 2010: a review of materials from the Scientific Council on Acoustics of the Russian Academy of Sciences54 1186–1192 (2011)
    43.25.+y, 43.30.+m, 87.50.Y (all)
  5. O.V. Rudenko “Nonlinear waves: some biomedical applications50 359–367 (2007)
    01.10.Fv, 43.25.+y, 43.25.−x, 43.35.Mr, 43.80.Cs, 43.80.Qf, 62.20.Mk, 62.65.+k (all)
  6. O.V. Rudenko “Giant nonlinearities in structurally inhomogeneous media and the fundamentals of nonlinear acoustic diagnostic techniques49 69–87 (2006)
    43.25.+y, 62.20.Mk, 62.65.+k (all)
  7. V.Yu. Zaitsev, V.E. Nazarov, V.I. Talanov ““Nonclassical” manifestations of microstructure-induced nonlinearities: new prospects for acoustic diagnostics49 89–94 (2006)
    01.10.Fv, 43.25.+y, 62.20.Mk, 62.65.+k (all)
  8. I.B. Esipov, S.A. Rybak, A.N. Serebryanyi “Nonlinear acoustic diagnostics of the ocean and rock49 94–98 (2006)
    01.10.Fv, 43.25.+y, 43.30.Pc, 83.80.Fg, 92.10.−c (all)
  9. V.L. Preobrazhenskii “Parametrically phase-conjugate waves: applications in nonlinear acoustic imaging and diagnostics49 98–102 (2006)
    01.10.Fv, 43.25.+y, 43.40.+s, 62.60.+v (all)
  10. O.V. Rudenko, O.A. Sapozhnikov “Self-action effects for wave beams containing shock fronts47 907–922 (2004)
    43.25.+y, 47.40.Nm, 87.54.Hk (all)
  11. O.V. Rudenko “Nonlinear sawtooth-shaped waves38 965–989 (1995)
    43.25.+y
  12. R.F. Trunin “Shock compressibility of condensed materials in strong shock waves generated by underground nuclear explosions37 1123–1145 (1994)
    62.20.Fe, 62.10.+s, 47.40.Nm, 28.70.+y (all)
  13. N.M. Kuznetsov “Stability of shock waves32 993–1012 (1989)
    47.40.Nm, 47.20.−k (all)
  14. S.N. Gurbatov, A.I. Saichev, I.G. Yakushkin “Nonlinear waves and one-dimensional turbulence in nondispersive media26 857–876 (1983)
    03.40.Gc, 47.35.+i, 47.25.-c, 47.40.Nm (all)
  15. R.V. Polovin, K.P. Cherkasova “MAGNETOHYDRODYNAMIC WAVES9 278–293 (1966)
    47.65.−d, 47.40.Hg, 47.40.Nm (all)
  16. E.I. Zababakhin “Cumulation of energy and its limits8 295–298 (1965)
    47.55.dp, 47.55.dr, 47.40.Nm, 66.20.+d (all)
  17. R.I. Soloukhin “Detonation waves in gases6 523–541 (1964)
    47.40.Rs, 47.40.Nm, 82.33.Vx, 47.70.Fw, 47.70.Pq (all)
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