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Time-reversed sound beams of finite amplitude
1.D. R. Jackson and D. R. Dowling, “Phase conjugation in underwater acoustics,” J. Acoust. Soc. Am. 89, 171–181 (1991).
2.M. Fink, “Time reversal of ultrasonic fields—Part I: Basic principles,” IEEE Trans. Ultrason. Ferroelectr. Freq. Control 39, 555–566 (1992).
3.B. Y. Zel’dovich, N. F. Pilipetsky, and V. V. Shkunov, Principles of Phase Conjugation (Springer-Verlag, Berlin, 1985).
4.F. V. Bunkin, D. V. Vlasov, and Yu. A. Kravstov, “Problem of reversal of an acoustic wavefront and amplification of the reversed wave,” Sov. J. Quantum Electron. 11, 687–688 (1981).
5.A. P. Brysev, F. V. Bunkin, D. V. Vlasov, L. M. Krutianskii, V. L. Preobrazhenskii, and A. D. Stakhovskii, “Parametric phase conjugation of an ultrasonic wave in a ferrite,” Sov. Phys. Acoust. 34, 642–643 (1988).
6.A. P. Brysev, L. M. Krutyanskii, and V. L. Preobrazhenskii, “Wave phase conjugation of ultrasonic beams,” Phys. Usp. 41, 793–805 (1998).
7.M. Ohno, K. Yamamoto, A. Kokubo, K. Sakai, and K. Takagi, “Acoustic phase conjugation by nonlinear piezoelectricity. I. Principle and basic experiments,” J. Acoust. Soc. Am. 106, 1330–1338 (1999).
8.K. Yamamoto, M. Ohno, A. Kokubo, K. Sakai, and K. Takagi, “Acoustic phase conjugation by nonlinear piezoelectricity. II. Visualization and application to imaging systems,” J. Acoust. Soc. Am. 106, 1339–1345 (1999).
9.A. P. Brysev, F. V. Bunkin, M. F. Hamilton, L. M. Krutyanskii, K. B. Cunningham, V. L. Preobrazhenskii, Yu. V. Pyl’nov, A. D. Stakhovskii, and S. J. Younghouse, “Nonlinear propagation of a quasi-plane conjugate ultrasonic beam,” Acoust. Phys. 44, 641–650 (1998).
10.A. P. Brysev, L. M. Krutyansky, V. L. Preobrazhensky, Yu. V. Pylnov, K. B. Cunningham, and M. F. Hamilton, “Nonlinear propagation of phase-conjugate focused sound beams in water,” in Nonlinear Acoustics at the Turn of the Millennium, ISNA 15, edited by W. Lauterborn and T. Kurz (AIP, New York, 2000), pp. 183–186.
11.Yu. Pyl’nov, P. Pernod, and V. Preobrazhensky, “Acoustic imaging by second harmonic of phase conjugate wave in inhomogeneous medium,” Appl. Phys. Lett. 78, 553–555 (2001).
12.K. B. Cunningham, “Numerical simulation of time-reversed sound beams of finite amplitude,” Master’s thesis, The University of Texas at Austin, 1999.
13.M. F. Hamilton and C. L. Morfey, “Model equations,” in Nonlinear Acoustics, edited by M. F. Hamilton and D. T. Blackstock (Academic, Boston, 1998), Chap. 3.
14.Y.-S. Lee and M. F. Hamilton, “Time-domain modeling of pulsed finite-amplitude sound beams,” J. Acoust. Soc. Am. 97, 906–917 (1995).
15.S. J. Younghouse, “Acoustic streaming at high Reynolds numbers produced by focused sound beams with shocks in real fluids,” Master’s thesis, The University of Texas at Austin, 1998.
16.M. A. Averkiou, “Experimental investigation of propagation and reflection phenomena in finite amplitude sound beams,” Doctoral dissertation, The University of Texas at Austin, 1994.
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