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22 T. Folégot, C. Prada, and M. Fink, “Resolution enhancement and separation of reverberation from target echo with the time rever- sal operator echo,” J. Acoust. Soc. Am. 113(6), 3155-3160 (2003).
23 J-G. Minonzio, C. Prada, D. Chambers, D. Clorennec, and M. Fink, “Characterization of subwavelength elastic cylinders with the decomposition of the time-reversal operator,” J. Acoust. Soc. Am. 117(2), 789-798 (2005).
24 A. Aubry, J. de Rosney, J-G. Minonzio, C. Prada, and M. Fink, “Gaussian beams and Legendre polynomials as invariants of the time reversal operator for a large cylinder,” J. Acoust. Soc. Am. 120(5), 2746-2754 (2006).
25 C. F. Gaumond, D. M. Fromm, J. F. Lingevitch, R. Menis, G. F. Edelmann, D. C. Calvo, and E. Kim, “Demonstration at sea of the decomposition-of-the-time-reversal-operator technique,” J. Acoust. Soc. Am. 119(2), 976-990 (2006).
26 C. Prada, J. de Rosney, D. Clorennec, J-G. Minonzio, A. Aubry, M. Fink, L. Berniere, P. Billand, S. Hibral, and T. Folégot, “Experimental detection and focusing in shallow water by decomposition of the time reversal operator,” J. Acoust. Soc. Am. 122(2), 761-768 (2007).
27 J-G. Minonzio, C. Prada, A. Aubry, and M. Fink, “Multiple scat- tering between two elastic cylinders and invariants of the time reversal operator: Theory and experiments,” J. Acoust. Soc. Am. 120(2), 875-883 (2006).
28 F. K. Gruber, E. A. Marengo, and A. J. Devaney, “Time-reversal imaging with multiple signal classification considering multiple scattering between the targets,” J. Acoust. Soc. Am. 115(6), 3042- 3047 (2004).
29 A. J. Devaney, E. A. Marengo, and F. K. Gruber, “Time-reversal- based imaging and inverse scattering of multiply scattering of point targets,” J. Acoust. Soc. Am. 118(5), 3129-3138 (2005).
30 J. de Rosney and M. Fink, “Overcoming the diffraction limit in wave physics using a time reversal mirror and a novel acoustic sink,” Phys. Rev. Lett. 89(12), 124301/1-5 (2002).
31 G. Lerosey, J. de Rosney, A. Tourin, and M. Fink, “Focusing beyond the diffraction limit with far-field time reversal,” Science 315, 1320-1322 (2006).
32 S. G. Conti, P. Roux, and W. Kuperman, “Near-field time-rever- sal amplification,” J. Acoust. Soc. Am. 121(6), 3602-3606 (2007).
33 P. Roux, B. Roman, and M. Fink, “Time-reversal in an ultrason-
ic waveguide,” Appl. Phys. Lett. 70(14), 1811-1813 (1997).
34 W. A. Kuperman, W. S. Hodgkiss, H. C. Song, T. Akal, C. Ferla, and D. Jackson, “Phase conjugation in the ocean: Experimental demonstration of an acoustic time-reversal mirror,” J. Acoust.
Soc. Am. 103(1), 25-40 (1998).
35 S. Kim, G. F. Edelmann, W. A. Kuperman, W. S. Hodgkiss, H. C.
Song, and T. Akal, “Spatial resolution of time-reversal arrays in
shallow water,” J. Acoust. Soc. Am. 110(2), 820-829 (2001).
36 S. Kim, W. A. Kuperman, W. S. Hodgkiss, H. C. Song, G. F. Edelmann, and T. Akal, “Robust time reversal focusing in the
ocean,” J. Acoust. Soc. Am. 114(1), 145-157 (2003).
37 L. Pautet, A. Tesei, P. Guerrini, and E. Pouliquen, “Target echo enhancement using a single-element time reversal Mirror,” IEEE
J. Ocean Eng. 30(4), 4912-4920 (2005).
38 H. C. Song, W. S. Hodgkiss, W. A. Kuperman, P. Roux, and T.
Akal, “Experimental demonstration of adaptive reverberation nulling using time reversal,” J. Acoust. Soc. Am. 118(3), 1381- 1387 (2005).
39 D. Rouseff, D. R. Jackson, W. L. J. Fox, C. D. Jones, J. A. Ritcey, and D. R. Dowling, “Underwater acoustic communication by passive-phase conjugation: Theory and experimental results,” IEEE J. Ocean Eng. 26(4), 821-831 (2001).
40 G. F. Edelmann, T. Akal, W. S. Hodgkiss, S. Kim, W. A. Kuperman, and H. C. Song, “An initial demonstration of under-
water acoustic communications using time reversal,” IEEE J.
Ocean Eng. 27(3), 602-609 (2002).
41 K. B. Smith, A. A. M. Abrantes, and A. Larraza, “Examination of
time-reversal acoustics in shallow water and applications to noncoherent underwater acoustic communications,” J. Acoust. Soc. Am. 113(6), 3095-3110 (2203).
42 W. J. Higley, P. Roux, W. A. Kuperman, W. S. Hodgkiss, H. C. Song, T. Akal, and M. Stevenson, “Synthetic aperture time-rever- sal communications in shallow water: Experimental demonstra- tion at sea,” J. Acoust. Soc. Am. 118(4), 2365-2372 (2005).
43 C. Dorme and M. Fink, “Focusing in transmit-receive mode through inhomogeneous media: The time-reversal matched fil- ter,” J. Acoust. Soc. Am. 98(2), 1155-1162 (1995).
44 J-L. Thomas, F. Wu, and M. Fink, “Time reversal focusing applied to lithotripsy,” Ultrason. Imag. 18, 106-121 (1996).
45 J-L. Thomas and M. Fink, “Ultrasonic beam focusing through tissue inhomogeneities with a time reversal mirror: Application to transskull therapy,” IEEE Trans. Ultrason. Ferr. Freq. Contr. 43(6), 1122-1129 (1996).
46 M. Tanter, J-L. Thomas, and M. Fink, “Focusing and steering through absorbing and aberrating layers: Application to ultra- sonic propagation through the skull,” J. Acoust. Soc. Am. 103(5), 2403-2410 (1998).
47 M. Fink, G. Montaldo, and M. Tanter, “Time-reversal acoustics in biomedical engineering,” Ann. Rev. Biomed. Eng. 5, 465-497 (2003).
48 M. Pernot, J.-F. Aubry, M. Tanter, A.-L. Boch, F. Marquet, M. Kujas, D. Seilhean, and M. Fink, “In vivo transcranial brain sur- gery with an ultrasonic time reversal mirror,” J. Neurosurg. 106(6), 1061-1066 (2007).
49 N. Chakroun, M. Fink, and F. Wu, “Time reversal processing in ultrasonic nondestructive testing,” IEEE Trans. Ultrason. Ferr. Freq. Contr. 42(6), 1087-1098 (1995).
50 V. Miette, L. Sandren, F. Wu, and M. Fink, “Optimisation of time reversal processing in titanium inspections,” Proc. IEEE Ultrason. Symp. 1996, 643-647 (1996).
51 E. Kerbrat, C. Prada, D. Cassereau, and M. Fink, “Ultrasonic nondestructive testing of scattering media using the decomposi- tion of the time-reversal operator,” IEEE Trans. Ultrason. Ferr. Freq. Contr. 49(8), 1103-1113 (2002).
52 J-L. Robert, M. Burcher, C. Cohen-Bacrie, and M. Fink, “Time reversal operator decomposition with focused transmission and robustness to speckle noise: Application to microcalcification detection,” J. Acoust. Soc. Am. 119(6), 3848-3859 (2006).
53 R. K. Ing and M. Fink, “Time recompression of dispersive Lamb waves using a time reversal mirror–Application to flaw detection in thin plates,” IEEE Ultrason. Symp. 1, 659-663 (1996).
54 R. K. Ing and M. Fink, “Time-reversed Lamb waves,” IEEE Trans. Ultrason. Ferr. Freq. Contr. 45(4), 1032-1043 (1998).
55 R. K. Ing, M. Fink, and O. Casula, “Self-focusing Rayleigh wave using a time reversal mirror,” Appl. Phys. Lett. 68(2), 161-163 (1996).
56 V. Tournat, D. M. Profunser, E. Muramoto, O. Matsuda, T. Takezaki, S. Sueoka, and O. B. Wright, “Microscale multiple scat- tering of coherent surface acoustic wave packets probed with GHz
time-reversal acoustics,” Phys. Rev. E 74, 026604/1-5 (2006).
57 P. D. Norville and W. R. Scott, Jr., “An investigation of time rever- sal techniques in seismic land mine detection,” J. Acoust. Soc. Am. 118(2), 735-744 (2005). Correct: An investigation of time- reversal techniques in seismic landmine detection Pelham D. Norville, Waymond R. Scott, Jr., and Gregg D. Larson Proc. SPIE
5415, 1310 (2004)
58 A. Sutin, A. Sarvazyan, P. A. Johnson, and J. A. TenCate, “Land
mine detection by time-reversal acousto-seismic method,” J. Acoust. Soc. Am. 115(5), 2384(A) (2004).
14 Acoustics Today, January 2008