Мощные ультразвуковые пучки - диагностика источников, самовоздействие ударных волн и воздействие на среду при литотрипсии, страница 10
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and Evan, A.P. Cavitation detectionduring shock wave lithotripsy. − Ultrasound Med. Biol., 2005, v. 31, no. 9, pp. 1245−1256.38. Sapozhnikov, O.A., Morozov, A.V., Ponomarev, A.E., and Smagin, M.A. Characterization oftherapeutic and diagnostic ultrasound sources using acoustic holography and optical schlierenmethod. – Proceedings of International Symposium “Topical Problems of Nonlinear WavePhysics” (NWP-2005), Russian Academy of Sciences, Institute of Applied Physics, NizhnyNovgorod, 2005, pp. 91−92.39. Sapozhnikov, O.A., Morozov, A.V., and Cathignol, D.
Acoustic holography and laservibrometry to characterize vibration of piezoceramic and piezocomposite transducers used inultrasound therapy. – in “High Intensity acoustic waves in modern technological and medicalapplications” (Proceedings of Joint Workshop of Russian Acoustical Society and FrenchAcoustical Society, Moscow, 2005), Moscow, GEOS, 2005, pp.
20−29.40. Sapozhnikov, O.A., Trusov, L.A., Owen, N.R., Bailey, M.R., and Cleveland, R.O. Detectingfragmentation of kidney stones in lithotripsy by means of shock wave scattering. – in“Therapeutic Ultrasound” (Proceedings of 5th International Symposium on Therapeutic31Ultrasound, Boston, 2005), ed. by G.T. Clement, N.J. McDannold, and K. Hynynen, AIPConference Proceedings, v. 829, p. 308−312.41. Sapozhnikov, O.A., Morozov, A.V., and Cathignol, D.
Piezoelectric transducer surfacevibration characterization using acoustic holography and laser vibrometry. – Proceedings of2004 IEEE UFFC 50th Anniversary Joint Conference (Montreal, Canada, August 23−27, 2004),pp. 161−164.42. Sapozhnikov, O.A., Bailey, M.R., Maxwell, A.D., MacConaghy, B., Cleveland, R.O., andCrum, L.A. Assessing the mechanism of kidney stone comminution by a lithotripter shockpulse.
− Proceedings of 4th International Symposium on Therapeutic Ultrasound(September 18−20, 2004, Kyoto, Japan), ed. by G.R. ter Haar and I. Rivens, AIP ConferenceProceedings, v. 754, pp. 164−166.43. Brysev, A.P., Lyakhov, G.A., Maslov, I.A., Oppengeim, V.D., Petnikov, V.G.,Pereselkov, S.A., Korshak, B.A., Sapozhnikov, O.A., Rybak, S.A., and Serebryanny, A.N.Acoustic methods for sounding of natural media. − Physics of Wave Phenomena, 2003, v. 11,no. 4, pp.
177−219.44. Pishchalnikov, Y.A., Sapozhnikov, O.A., Bailey, M.R., Williams Jr., J.C., Cleveland, R.O.,Colonius, T., Crum, L.A., Evan, A.P., and McAteer, J.A. Cavitation bubble cluster activity inthe breakage of kidney stones by lithotripter shockwaves. − Journal of Endourology, 2003,v. 17, no. 7, pp. 435−446.45. Sapozhnikov, O.A., Cleveland,R.O., Bailey, M.R., and Crum, L.A. Modeling of stressesgenerated by lithotripter shock wave in cylindrical kidney stone.
− Proceedings of 3rdInternational Symposium on Therapeutic Ultrasound (Lyon, France, 2003), edited byJ.Y. Chapelon and C. Lafon, INSERM, Lyon, 2003, pp. 323−328.46. Sapozhnikov, O.A., Khokhlova, V.A., Bailey, M.R., Williams, Jr., J.C., McAteer, J.A.,Cleveland, R.O., and Crum, L.A. Effect of overpressure and pulse repetition frequency oncavitation in shock wave lithotripsy.
− J. Acoust. Soc. Am., 2002, v. 112, no. 3, Pt. 1,pp. 1183−1195.47. Morozov, A.V., Sapozhnikov, O.A., and Pishchalnikov, Y.A. Method of measurements ofvibrational velocity on ultrasonic source surface: Numerical analysis of accuracy. − Physics ofVibrations, 2002, v. 10, no. 2, pp. 93−99.48. Sapozhnikov, O.A., Bailey, M.R., Crum, L.A., Miller, N.A., Cleveland, R.O.,Pishchalnikov, Y.A., Pishchalnikova, I.V., McAteer, J.A., Connors, B.A., Blomgren, P.M., andEvan, A.P.
Ultrasound-guided localized detection of cavitation during lithotripsy in pig kidneyin vivo. − Proceedings of 2001 IEEE Ultrasonics Symposium (Atlanta, Georgia, October 7−10,2001), v. 2, pp. 1347−1350.49. Cleveland, R.O., Sapozhnikov, O.A., Bailey, M.R., and Crum, L.A. A dual passive cavitationdetector for localized detection of lithotripsy-induced cavitation in vitro. − J.
Acoust. Soc. Am.,2000, v. 107, no. 3, pp. 1745−1758.50. Chapelon, J.-Y., Cathignol, D., Cain, C., Ebbini, E., Kluiwstra, J.-U., Sapozhnikov, O.A.,Fleury, G., Berriet, R., Chupin, L., and Guey, J.-L. New piezoelectric transducers fortherapeutic ultrasound. − Ultrasound in Medicine and Biology, 2000, v. 26, no. 1, pp. 153−159.51. Cathignol, D., Sapozhnikov, O.A., and Theillere, Y. Comparison of acoustic fields radiatedfrom piezoceramic and piezocomposite focused radiators. − J. Acoust.
Soc. Am., 1999, v. 105,no. 5, pp. 2612−2617.52. Tavakkoli, J., Cathignol, D., Souchon, R., and Sapozhnikov, O.A. Modeling of pulsed finiteamplitude focused sound beams in time domain. − J. Acoust. Soc. Am., 1998, v. 104, № 4,pp. 2061−2072.53. Cathignol, D., Sapozhnikov, O.A., and Zhang, J.
Lamb waves in piezoelectric focused radiatoras a reason for discrepancy between O’Neil formula and experiment.− J. Acoust. Soc. Am.,1997, v. 101, № 3, pp. 1286−1297.54. Dupenloup, F., Chapelon, J.Y., Cathignol, D.J., and Sapozhnikov, O.A. Reduction of thegrating lobes of annular arrays used in focused ultrasound surgery. − IEEE Transactions onUltrasonics, Ferroelectrics, and Frequency Control, 1996, v. 43, № 6, pp. 991−998.32.
