Ref. Articles

2023

1. R.P. Williams, J.C. Simon, V.A. Khokhlova, O.A. Sapozhnikov, and T.D. Khokhlova “The histotripsy spectrum: differences and similarities in techniques and instrumentation” International Journal of Hyperthermia, 40  1  1-19, DOI: 10.1080/02656736.2023.2233720   download
2. P.B. Rosnitskiy, S.A. Tsysar, M.M. Karzova, S.V. Buravkov, P.G. Malkov, N.V. Danilova, E.M. Ponomarchuk, O.A. Sapozhnikov, T.D. Khokhlova, G.R. Schade, A.D. Maxwell, Y.N. Wang, A.V. Kadrev, A.L. Chernyaev, D.A. Okhobotov, A.A. Kamalov, and V.A. Khokhlova “Pilot ex vivo study on non-thermal ablation of human prostate adenocarcinoma tissue using boiling histotripsy” Ultrasonics, 133  107029  1-8, DOI: 10.1016/j.ultras.2023.107029   download
3. E.M. Ponomarchuk, P.V. Yuldashev, D.A. Nikolaev, S.A. Tsysar, A.A. Mironova, and V.A. Khokhlova “Nonlinear ultrasound fields generated by an annular array with electronic and geometric adjustment of its focusing angle” Acoustical Physics, 69  4  459–470, DOI: 10.1134/S1063771023600560   download
4. V.A. Khokhlova, P.B. Rosnitskiy, S.A. Tsysar, S.V. Buravkov, E.M. Ponomarchuk, O.A. Sapozhnikov, M.M. Karzova, T.D. Khokhlova, A.D. Maxwell, Y.N. Wang, A.V. Kadrev, A.L. Chernyaev, V.P. Chernikov, D.A. Okhobotov, A.A. Kamalov, and G.R. Schade “Initial assessment of boiling histotripsy for mechanical ablation of ex vivo human prostate tissue” Ultrasound in Medicine and Biology, 49  1  62–71, DOI: 10.1016/j.ultrasmedbio.2022.07.014   download
5. G.P. Thomas, T.D. Khokhlova, O.A. Sapozhnikov, and V.A. Khokhlova “Enhancement of boiling histotripsy by steering the focus axially during the pulse delivery” IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control, 70  8  DOI: 10.1109/TUFFC.2023.3286759   download
6. R.P. Williams, M.M. Karzova, P.V. Yuldashev, A.Z. Kaloev, F.A. Nartov, V.A. Khokhlova, B.W. Cunitz, K.P. Morrison, and T.D. Khokhlova “Dual-mode 1-D linear ultrasound array for image-guided drug delivery enhancement without ultrasound contrast agents” IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control, 70  7  693–707, DOI: 10.1109/tuffc.2023.3268603   download
7. M.M. Karzova, W. Kreider, A. Partanen, T.D. Khokhlova, O.A. Sapozhnikov, P.V. Yuldashev, and V.A. Khokhlova “Comparative characterization of nonlinear ultrasound fields generated by Sonalleve V1 and V2 MR-HIFU systems” IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control, 70  6  521–537, DOI: 10.1109/TUFFC.2023.3261420   download
8. M.A. Ghanem, A.D. Maxwell, D. Dalecki, O.A. Sapozhnikov, and M.R. Bailey “Phase holograms for the three-dimensional patterning of unconstrained microparticles” Scientific reports, 13  9160  1-10, DOI: 10.1038/s41598-023-35337-8   download
9. S.A. Asfandiyarov, P.B. Rosnitskiy, S.A. Tsysar, P.V. Yuldashev, V.A. Khokhlova, V.E. Sinitsyn, E.A. Mershina, and O.A. Sapozhnikov “Estimation of the thickness profile of a human skull phantom by ultrasound methods using a two-dimensional array” Acoustical Physics, 69  1  112–118, DOI: 10.1134/S106377102270004X   download
10. P.A. Pestova, M.M. Karzova, P.V. Yuldashev, and V.A. Khokhlova “The use of focused ultrasound beams with shocks to suppress diffusion effects in volumetric thermal ablation of biological tissue” Acoustical Physics, 69  4  448–458, DOI: 10.1134/S1063771023600468   download
11. A.V. Tyurina, P.V. Yuldashev, I.B. Esipov, and V.A. Khokhlova “Quasilinear approximation for modeling difference-frequency acoustic wave in a diffracting pump-wave beam” Acoustical Physics, 69  1  30–39, DOI: 10.1134/S1063771022700014   download
12. S.N. Gurbatov, I.Yu. Demin, A.A. Lisin, S.A. Karabasov, A.V. Tyurina “Numerical Simulation of the Evolution of an Intense Aerodynamic Jet in the Far-Field of Propagation” Mathematical Models and Computer Simulations 15  1  109–117, DOI: 10.1134/S207004822301009X   download

2022

1. A. Panfilova, X. Chen, C. Widdershoven, J.E. Freund, D.S. Heijink, P. Zondervan, R.J. van Sloun, O.A. Sapozhnikov, H. Wijkstra, and M. Mischi “B/a measurement of clear cell renal cell carcinoma versus healthy kidney tissue” Ultrasound in Medicine and Biology, 48  7  1348–1355, DOI: 10.1016/j.ultrasmedbio.2022.02.024   download
2. M.R. Bailey, A.D. Maxwell, S. Cao, S. Ramesh, Z. Liu, J.C. Williams Jr, J. Thiel, B. Dunmire, T. Colonius, E. Kuznetsova, W. Kreider, M.D. Sorensen, J.E. Lingeman, and O.A. Sapozhnikov “Improving burst wave lithotripsy effectiveness for small stones and fragments by increasing frequency: theoretical modeling and ex vivo study” Journal of Endourology, 36  7  996–1003, DOI: 10.1089/end.2021.0714   download
3. G.P. Thomas, T.D. Khokhlova, O.A. Sapozhnikov, Y.N. Wang, S.I. Totten, and V.A. Khokhlova “In vivo aberration correction for transcutaneous hifu therapy using a multielement array” IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control, 69  10  2955–2964, DOI: 10.1109/tuffc.2022.3200309   download
4. A.T. Peek, P.L. Thomas Gilles, D.F. Leotta, P.V. Yuldashev, V.A. Khokhlova, and T.D. Khokhlova “Robust and durable aberrative and absorptive phantom for therapeutic ultrasound applications” Journal of the Acoustical Society of America, 151  5  3007–3018, DOI: 10.1121/10.0010369   download
5. D.A. Nikolaev, S.A. Petrosyan, S.A. Tsysar, P.B. Rosnitsky, and O.A. Sapozhnikov “Use of phase masks to construct the required spatial pattern of an ultrasonic field” Bulletin of the Russian Academy of Sciences: Physics, 86  7  846–851, DOI: 10.3103/S1062873822070231   download
6. A.A. Krokhmal, N.E. Krokhmal, and O.A. Sapozhnikov “Calculating an acoustic trap for an elastic spherical scatterer of large wave size” Bulletin of the Russian Academy of Sciences: Physics, 86  2  194–199, DOI: 10.3103/S1062873822020137   download
7. D.D. Chupova, P.B. Rosnitskiy, L.R. Gavrilov, and V.A. Khokhlova “Compensation for aberrations of focused ultrasound beams in transcranial sonications of brain at different depths” Acoustical Physics, 68  1  1–10, DOI: 10.1134/S1063771022010018   download
8. A.Z. Kaloev, D.A. Nikolaev, V.A. Khokhlova, S.A. Tsysar, and O.A. Sapozhnikov “Spatial correction of an acoustic hologram for reconstructing surface vibrations of an axially symmetric ultrasound transducer” Acoustical Physics, 68  1  71–82, DOI: 10.1134/S1063771022010043   download
9. A.V. Tyurina, P.V. Yuldashev, I.B. Esipov, and V.A. Khokhlova “Spectral modeling of difference-frequency generation in the case of two-frequency interaction of ultrasound waves” Acoustical Physics, 68  2  130–137, DOI: 10.1134/S1063771022020105   download
10. M. Song, G.P.L. Thomas, V.A. Khokhlova, O.A. Sapozhnikov, M.R. Bailey, A.D. Maxwell, P.V. Yuldashev, and T.D. Khokhlova “Quantitative assessment of boiling histotripsy progression based on color doppler measurements” IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control, 69  12  3255–3269, DOI: 10.1109/TUFFC.2022.3212266   download
11. E.M. Ponomarchuk, C. Hunter, M. Song, V.A. Khokhlova, O.A. Sapozhnikov, P.V. Yuldashev, and T.D. Khokhlova “Mechanical damage thresholds for hematomas near gas-containing bodies in pulsed HIFU fields” Physics in Medicine and Biology, 67  21  1–18, DOI: 10.1088/1361-6560/ac96c7   download
12. O.A. Sapozhnikov, L.M. Kotelnikova, D.A. Nikolaev, and S.A. Tsysar “Direct measurement of the radiation force of a focused acoustic beam on a spherical particle in water” Proceedings of Meetings on Acoustics, 48  045005/1–045005/6, DOI: 10.1121/2.0001650   download
13. E.O. Konnova, V.A. Khokhlova, and P.V. Yuldashev “The use of graphic accelerators in simulation of nonlinear ultrasonic beams with shock fronts on the basis of the Westerwelt equation” Acoustical Physics, 68  6  529–536, DOI: 10.1134/S1063771022060161   download
14. S.A. Karabasov, A.P. Markesteijn, V. Gryazev, A. Kalyan, S.N. Gurbatov, I.Yu. Demin, A.A. Lisin, A.V. Tyurina “Linear and nonlinear modelling of far-field propagation of broadband shock-associated noise” Journal of Sound and Vibration 536  117100, DOI: 10.1016/j.jsv.2022.117100   download

2021

1. P.V. Yuldashev, M.M. Karzova, W. Kreider, P.B. Rosnitskiy, O.A. Sapozhnikov and V.A.Khokhlova. ““HIFU beam”: a simulator for predicting axially symmetric nonlinear acoustic fields generated by focused transducers in a layered medium” IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control, Sept. 2021, 68  9  2837–2852. DOI: 10.1109/TUFFC.2021.3074611   download
2. G.P.L. Thomas, T.D. Khokhlova and V.A. Khokhlova. “Partial respiratory motion compensation for abdominal extracorporeal boiling histotripsy treatments with a robotic arm” IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control, Sept. 2021 68  9  2861–2870. DOI: 10.1109/TUFFC.2021.3075938   download
3. M.M. Karzova, P.V. Yuldashev, V.A. Khokhlova, F.A. Nartov, K.P. Morrison and T.D. Khokhlova “Dual-use transducer for ultrasound imaging and pulsed focused ultrasound (pFUS) therapy” IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control, Sept. 2021 68  9  2930–2941. DOI: 10.1109/TUFFC.2021.3070528   download
4. C.R. Bawiec, P.B. Rosnitskiy, A.T. Peek, A.D. Maxwell, W. Kreider, G.R. ter Haar, O.A. Sapozhnikov, V.A. Khokhlova, T.D Khokhlova. “Inertial cavitation behaviors induced by nonlinear focused ultrasound pulses” IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control, Sept. 2021 68  9  2884–2895. DOI: 10.1109/TUFFC.2021.3073347   download
5. Z. Xu, V.A. Khokhlova, K.A. Wear, J.-F. Aubry, and T.A. Bigelow. “Introduction to the Special Issue on Histotripsy: Approaches, Mechanisms, Hardware, and Applications” IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control, Sept. 2021 68  9  2834–2836. DOI: 10.1109/TUFFC.2021.3102092   download
6. E.M. Ponomarchuk, P.B. Rosnitskiy, T.D. Khokhlova, S.V. Buravkov, S.A. Tsysar, M.M. Karzova, K.D. Tumanova, A.V. Kunturova, Y.N. Wang, O.A. Sapozhnikov, P.E. Trakhtman, N.N. Starostin, and V.A. Khokhlova “Ultrastructural analysis of volumetric histotripsy bio-effects in large human hematomas” Ultrasound in Medicine and Biology 47  9  2608–2621. DOI: 10.1016/j.ultrasmedbio.2021.05.002   download
7. C. R. Bawiec, T. D. Khokhlova, O. A. Sapozhnikov, P.B. Rosnitskiy, B.W. Cunitz, M.A. Ghanem, C. Hunter, W. Kreider, G.R. Schade, P.V. Yuldashev, V.A. Khokhlova “A prototype therapy system for boiling histotripsy in abdominal targets based on a 256 element spiral array” IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control, May 2021 68  5  1496-1510. DOI: 10.1109/TUFFC.2020.3036580   download
8. D.A. Nikolaev, S.A. Tsysar, V.A. Khokhlova, W. Kreider, and O.A. Sapozhnikov “Holographic extraction of plane waves from an ultrasound beam for acoustic characterization of an absorbing layer of finite dimensions” Journal of the Acoustical Society of America 149  1  386–404   download
9. A. Panfilova , R.J.G. van Sloun, H. Wijkstra, O.A. Sapozhnikov , and M. Mischi “A review on B/A measurement methods with a clinical perspective” Journal of the Acoustical Society of America 149  4  2200–2237, DOI: 10.1121/10.0003627   download
10. A. Panfilova , X. Chen, R.J.G. van Sloun , H. Wijkstra , M. Mischi , and O.A. Sapozhnikov “The generalized finite amplitude insert-substitution method for B/A measurement of tissues and liquids” Proceedings of Meetings on Acoustics 42  020001/1 – 020006/11, DOI: 10.1121/2.0001439   download
11. P.V. Yuldashev, M.M. Karzova, V.A. Khokhlova, and Ph Blanc-Benon “Numerical simulation of a nonlinear parabolic equation for analyzing the perceived loudness statistics of sonic boom wave after propagation through atmospheric turbulent layer” Acoustical Physics 67  1  26-37   download
12. P.A. Pestova, M.M. Karzova, P.V. Yuldashev, W. Kreider, and V.A. Khokhlova “Impact of treatment trajectory on temperature field uniformity in biological tissue irradiated by ultrasound pulses with shocks” Acoustical Physics 67  3  250–258
13. L.M. Kotelnikova, D.A. Nikolaev , S.A. Tsysar , and O.A. Sapozhnikov “Determination of the elastic properties of a solid sphere based on the results of acoustic beam scattering” Acoustical Physics 67  4  360–374, DOI: 10.1134/S1063771021040072   download
14. S.A. Tsysar , D.A. Nikolaev, and O.A. Sapozhnikov “Broadband vibrometry of a two- dimensional ultrasound array using transient acoustic holography” Acoustical Physics 67  3  320–328, DOI: 10.1134/S1063771021030131   download
15. E.O. Konnova, P.V. Yuldashev, V.A. Khokhlova “Using graphics accelerators in modeling nonlinear ultrasonic beams on the basis of the Westervelt equation” Bulletin of the Russian Academy of Sciences: Physics 85  6  632 – 636, DOI: 10.3103/S1062873821060125   download
16. A.S. Bobina, P.B. Rosnitskiy, T.D. Khokhlova, P.V. Yuldashev, V.A. Khokhlova “Effect of abdominal wall inhomogeneities on the focusing of an ultrasonic beam at different positions of the transducer” Bulletin of the Russian Academy of Sciences: Physics 85  6  675 – 680, DOI: 10.3103/S1062873821060058   download
17. S.A. Petrosyan, D.A. Nikolaev, S.A. Tsysar, V.D. Svet, A.I. Tsekhanovich, A.D. Krendeleva, and O.A. Sapozhnikov “Imaging in a liquid through a solid-state acoustic lens with aberration correction” Bulletin of the Russian Academy of Sciences: Physics 85  6  647-652   download
18. D.A. Nikolaev, S.A. Tsysar, and O.A. Sapozhnikov “Determination and compensation of axes misalignment of three-coordinate positioning systems using acoustic holography” Bulletin of the Russian Academy of Sciences: Physics 85  6  658-664   download
19. A.A. Krokhmal, O.A. Sapozhnikov, E.V. Koudan, A.A. Gryadunova, S.A. Tsysar, C.V. Petrov, F. Pereira, Y.D. Hesuani, V.A. Mironov, and V.A. Parfenov “Creating tubular structures from tissue spheroids via the acoustic radiation force” Bulletin of the Russian Academy of Sciences: Physics 85  6  681-685   download
20. L.M. Kotelnikova, A.A. Krokhmal, D.A. Nikolaev, S.A. Tsysar,O.A. Sapozhnikov “Controlling the Coefficient of Reflection of Sound from a Plane Piezoelectric Plate by Selecting its Electrical Load” Bulletin of the Russian Academy of Sciences: Physics, 85  12  1501 – 1506, DOI: 10.3103/S1062873821120133   download

2020

1. M.A. Ghanem, A.D. Maxwell, Y.-N. Wang, B.W. Cunitz, V.A. Khokhlova, O.A. Sapozhnikov, and M.R. Bailey “Noninvasive acoustic manipulation of objects in a living body” Proceedings of the National Academy of Sciences Jul 2020  202001779   download
2. V.A. Parfenov, E.V. Koudan, A.A. Krokhmal, E.A. Annenkova, S.V. Petrov, F.D. Pereira, P.A. Karalkin, E.K. Nezhurina, A.A. Gryadunova, E.A. Bulanova, O.A. Sapozhnikov, S.A. Tsysar, K. Liu, E. Oosterwijk, H. van Beuningen, P. van der Kraan, S. Granneman, H. Engelkamp, P. Christianen, V. Kasyanov, Y.D. Khesuani, and V.A. Mironov “Biofabrication of a functional tubular construct from tissue spheroids using magnetoacoustic levitational directed assembly” Advanced Healthcare Materials  2000721(1–10)   download
3. V.A. Parfenov, Y.D. Khesuani, S.V. Petrov, P.A. Karalkin, E.V. Koudan, E.K. Nezhurina, F.D. Pereira, A.A. Krokhmal, A.A. Gryadunova, E.A. Bulanova, I.V. Vakhrushev, I.I. Babichenko, V. Kasyanov, O.F. Petrov, M.M. Vasiliev, K. Brakke, S.I. Belousov, T.E. Grigoriev, E.O. Osidak, E.I. Rossiyskaya, L.B. Buravkova, O.D. Kononenko, U. Demirci, and V.A. Mironov “Magnetic levitational bioassembly of 3D tissue construct in space” Science advances 6  29  eaba4174   download
4. V.A. Parfenov, V.A. Mironov, E.V. Koudan, E.K. Nezhurina, P.A. Karalkin, F.D. Pereira, S.V. Petrov, A.A. Krokhmal, T. Aydemir, I.V. Vakhrushev, Y.V. Zobkov, I.V. Smirnov, A.Y. Fedotov, U. Demirci, Y.D. Khesuani, and V.S. Komlev “Fabrication of calcium phosphate 3D scaffolds for bone repair using magnetic levitational assembly” Scientific reports 10  1  1-11   download
5. G.P.L. Thomas, T.D. Khokhlova, C.R. Bawiec, A.T. Peek, O.A. Sapozhnikov, M.O’Donnell, and V.A. Khokhlova “Phase-aberration correction for HIFU therapy using a multi-element array and backscattering of nonlinear pulses” IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control Oct. 14  in print
6. T.D. Khokhlova, J.C. Kucewicz, E.M. Ponomarchuk, C. Hunter, M. Bruce, V.A. Khokhlova, T.J. Matula, W. Monsky “Effect of stiffness of large extravascular hematomas on their susceptibility to boiling histotripsy liquefaction in vitro” Ultrasound in Medicine & Biology 46  8  2007-2016   download
7. T.J. Matula, Y.-N. Wang, T.D. Khokhlova, D.F. Leotta, J. Kucewicz, A.A. Brayman, M. Bruce, A.D. Maxwell, B.E. Macconaghy, G. Thomas, V.P. Chernikov, S.V. Buravkov, V.A. Khokhlova, K. Richmond, K.T. Chan, W.L. Monsky “Treating porcine abscesses with histotripsy: a pilot study” Ultrasound in Medicine & Biology 47  3  603-619   download
8. A.T. Peek, C. Hunter, W. Kreider, T.D. Khokhlova, P.B. Rosnitskiy, P.V. Yuldashev, O.A. Sapozhnikov, V.A. Khokhlova “Bilayer aberration-inducing gel phantom for high intensity focused ultrasound applications” The Journal of the Acoustical Society of America 148  6  3569–3580   download
9. A. D. Maxwell, B. MacConaghy, M. R. Bailey, and O. A. Sapozhnikov “An investigation of elastic waves producing stone fracture in burst wave lithotripsy” The Journal of the Acoustical Society of America 147  3  1607–1622   download
10. O.A. Sapozhnikov, A.D. Maxwell, and M.R. Bailey “Modeling of photoelastic imaging of mechanical stresses in transparent solids mimicking kidney stones” The Journal of the Acoustical Society of America 147  6  3819–3829   download
11. M.F. Hamilton and O.A. Sapozhnikov “Obituary – Evgenia Andreevna Zabolotskaya” Acoustics Today Fall   download
12. P.B. Rosnitskiy, O.A. Sapozhnikov, L.R. Gavrilov, and V.A. Khokhlova “Designing fully populated phased arrays for noninvasive ultrasound surgery with controlled degree of irregularity in the arrangement of elements” Acoustical Physics 4  4  352–361   download
13. A. A. Krokhmal, D. A. Nikolaev, S. A. Tsysar, and O. A. Sapozhnikov “Creating a reference plane ultrasonic wave in a fluid using a plane piezoelectric transducer with a large wave dimension” Acoustical Physics 66  5  449–460   download

2019

1. T.D. Khokhlova, G.R. Schade, Y.-N.Wang, S.V. Buravkov, V.P. Chernikov, J.C. Simon, F. Starr, A.D. Maxwell, M.R. Bailey, W. Kreider, V.A. Khokhlova “Pilot in vivo studies on transcutaneous boiling histotripsy in porcine liver and kidney” Scientific Reports 9  20176   download
2. M.A. Ghanem, A.D. Maxwell, O.A. Sapozhnikov, V.A. Khokhlova, and M.R. Bailey “Quantification of acoustic radiation forces on solid objects in fluid” Physical Review Applied 12  044076 (1–13)   download
3. T.J. Dubinsky, T.D. Khokhlova, V.A. Khokhlova, G.A. Schade “Histotripsy: the next generation of high‐intensity focused ultrasound for focal prostate cancer therapy” J. Ultrasound. Med. 39  6  1057-1067   download
4. O.A. Sapozhnikov, V.A. Khokhlova, R.O. Cleveland, P. Blanc-Benon, M.F. Hamilton “Nonlinear Acoustics Today” Acoustics Today 15  3  55–64   download
5. P.B. Rosnitskiy, P.V. Yuldashev, O.A. Sapozhnikov, L.R. Gavrilov, V.A. Khokhlova “Simulation of nonlinear trans-skull focusing and formation of shocks in brain using a fully populated ultrasound array with aberration correction” The Journal of the Acoustical Society of America 146  3  1786–1798   download
6. M.M. Karzova, T. Lechat, S. Ollivier, D. Dragna, P.V. Yuldashev, V.A. Khokhlova, P. Blanc-Benon “Irregular reflection of spark-generated shock pulses from a rigid surface: Mach-Zehnder interferometry measurements in air” The Journal of the Acoustical Society of America 145  1  26-35   download
7. M.M. Karzova, T. Lechat, S. Ollivier, D. Dragna, P. Yuldashev, V.A. Khokhlova, P. Blanc-Benon “Effect of surface roughness on nonlinear reflection of weak shock waves” The Journal of the Acoustical Society of America 146  5  438-443   download
8. A. Nikolaeva, M. Karzova, S. Tsysar, V. Khokhlova, and O. Sapozhnikov “Experimental study of radiation force by a focused ultrasound beam on an elastic scatterer in a fluid” Proceedings of Meetings on Acoustics 38  045009/1 – 045009/5   download
9. D. Nikolaev, S. Tsysar, A. Krendeleva, O. Sapozhnikov, and V. Khokhlova “Using acoustic holography to characterize absorbing layers” Proceedings of Meetings on Acoustics 38  045012/1 – 045012/5   download
10. A. Krokhmal, O. Sapozhnikov, E. Koudan, S. Tsysar, Y. Khesuani, and V. Parfenov “Assembly of a ring-shaped construct from tissue spheroids in a magneto-acoustic field” Proceedings of Meetings on Acoustics 38  020006/1 – 020006/5   download
11. S. A. Petrosyan, S. Tsysar, V. Svet, and O. Sapozhnikov. “Remote acoustic imaging in liquids through a bundle of rod waveguides” Proceedings of Meetings on Acoustics 38  055014/1 – 055014/5.   download
12. Y.S. Andriyakhina, M.M. Karzova, P.V. Yuldashev, V.A. Khokhlova “Accelerated thermal ablation of biological tissue volumes using HIFU beams with shock fronts” Acoustical Physics 65  2  141-150   download
13. A.V. Nikolaeva, M.M. Karzova, S.A. Tsysar, V.A. Khokhlova, O.A. Sapozhnikov “Simulating and measuring the acoustic radiation force of a focused ultrasonic beam on elastic spheres in water” Bulletin of the Russian Academy of Sciences: Physics 83  1  77-81   download
14. E.A Annenkova, O.A. Sapozhnikov “Surface instability and thermal and cavitational phenomena as mechanisms of drop explosions in acoustic fountains” Bulletin of the Russian Academy of Sciences: Physics 83  1  73-76   download
15. V.A. Khokhlova, P.B. Rosnitskiy, S.A. Tsysar, S.V. Buravkov, O.A. Sapozhnikov, M.M. Karzova, T.D. Khokhlova, A.D. Maxwell, N.M. Gaifullin, A.V. Kadrev, D.A. Okhobotov, A.A. Kamalov, G.R. Schade “A novel method for non-invasive mechanical ablation of prostate tumors using pulsed focused ultrasound” Urologiia 6  67-73 (in Russian)   download

2018

1. A. I. Polyanskiy , O.A. Sapozhnikov “Theoretical study of the cavitation mechanism of the twinkling artefact in the ultrasound imaging of kidney stones ” Bulletin of the Russian Academy of Sciences: Physics 82  5  545–549   download
2. D.A. Sukhoruchkin, P.V. Yuldashev, S.A. Tsysar, V.A. Khokhlova, V.D. Svet , O.A. Sapozhnikov “Use of pulse-echo ultrasound imaging in transcranial diagnostics of brain structures” Bulletin of the Russian Academy of Sciences: Physics 82  5  507–511   download
3. Matula T.J., Sapozhnikov O.A., Ostrovsky L.A., Brayman A.A., Kucewicz J., MacConaghy B.E., De Raad D. “Ultrasound-based cell sorting with microbubbles: A feasibility study” Journal of the Acoustical Society of America 144  1  41-52   download
4. A. A. Brayman, B. E. Macconaghy, Y. N. Wang, K.T. Chan, W.L. Monsky , V.P. Chernikov , S.V. Buravkov , V.A. Khokhlova , T.J. Matula “Inactivation of planktonic escherichia coli by focused 1-MHz ultrasound pulses with shocks: efficacy and kinetics upon volume scale-up ” Ultrasound in Medicine and Biology 44  9  1996–2008   download
5. M. A. Ghanem, A. D. Maxwell, W. Kreider, B.W. Cunitz, V.A. Khokhlova, O.A. Sapozhnikov, M.R. Bailey “Field characterization and compensation of vibrational non-uniformity for a 256-element focused ultrasound phased array ” IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control 65  9  1618–1630   download
6. P. B. Rosnitskiy, B. A. Vysokanov, L. R. Gavrilov, O.A. Sapozhnikov, V.A. Khokhlova “Method for designing multielement fully populated random phased arrays for ultrasound surgery applications ” IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control 65  4  630–637   download
7. Simon J.C., Sapozhnikov O.A., Kreider W., Breshock M., Williams Jr J.C., Bailey M.R. “The role of trapped bubbles in kidney stone detection with the color Doppler ultrasound twinkling artifact” Physics in Medicine and Biology 63  2  025011-1-025011-10   download
8. Y. Li, G. Guo, J. Tu, Q. Ma, X. Guo, D. Zhang, O.A. Sapozhnikov “Acoustic radiation torque of an acoustic-vortex spanner exerted on axisymmetric objects” Applied Physics Letters 112  254101–1–254101–5   download
9. V. D. Svet , S. A. Tsysar “Acoustic profiling of bottom sediments in large oil storage tanks” Acoustical Physics 64  1  115–121   download
10. Sapozhnikov O. A., Annenkova E. A. “Nonlinear spherical standing waves in an acoustically excited liquid drop” Acoustical Physics 64  3  299–308   download
11. P.V. Yuldashev, I.S. Mezdrokhin , V.A. Khokhlova “Wide-angle parabolic approximation for modeling high-intensity fields from strongly focused ultrasound transducers ” Acoustical Physics 64  3  309-319   download
12. T. Khokhlova, P. Rosnitskiy, C. Hunter, A. Maxwell, W. Kreider, G. ter Haar, M. Costa, O. Sapozhnikov, V. Khokhlova “Dependence of inertial cavitation induced by high intensity focused ultrasound on transducer f-number and nonlinear waveform distortion ” Journal of the Acoustical Society of America 144  3  1160–1169   download
13. Y.-N. Wang, T.D. Khokhlova, S.V. Buravkov, V.P. Chernikov, W. Kreider, A. Partanen, N. Farr, A.D. Maxwell, G.R. Schade, V.A. Khokhlova “Mechanical decellularization of tissue volumes using boiling histotripsy” Phys. Med. Biol. 63  23  235023

2017

1. Prieur F., Sapozhnikov O.A. “Modeling of the acoustic radiation force in elastography” The Journal of the Acoustical Society of America 142  2  947-961   download
2. P.B. Rosnitskiy, P.V. Yuldashev, O.A. Sapozhnikov, A. Maxwell, W. Kreider, M.R. Bailey, V.A. Khokhlova “Design of HIFU transducers for generating specified nonlinear ultrasound fields” IEEE Trans. Ultrason., Ferroelect., Freq. Contr. 64  2  374 – 390   download
3. M.M. Karzova, P.V. Yuldashev, O.A. Sapozhnikov, V.A. Khokhlova, B.W. Cunitz, W. Kreider, M.R. Bailey “Shock formation and nonlinear saturation effects in the ultrasound field of a diagnostic curvilinear probe” The Journal of the Acoustical Society of America 141  4  2327-2337   download
4. Khokhlova T.D., Haider Y.A., Maxwell A.D., Kreider W., Bailey M.R., Khokhlova V.A. “Dependence of boiling histotripsy treatment efficiency on HIFU frequency and focal pressure levels” Ultrasound in Medicine and Biology 43  9  1975-1985   download
5. Maxwell A.D., Yuldashev P.V., Kreider W., Khokhlova T.D., Schade G.R., Hall T.L., Sapozhnikov O.A., Bailey M.R., Khokhlova V.A. “A prototype therapy system for transcutaneous application of boiling histotripsy” IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control 64  10  1542-1557   download
6. Terzi, M.E., Tsysar, S.A., Yuldashev, P.V., Karzova, M.M., and Sapozhnikov, O.A. “Generation of a vortex ultrasonic beam with a phase plate with an angular dependence of the thickness” Moscow University Physics Bulletin 72  1  61–67   download
7. Nikolaeva, А.В., and Sapozhnikov, O.A. “Acoustic radiation force of a quasi-Gaussian beam imparted to a solid spherical scatterer in a fluid” Bulletin of the Russian Academy of Sciences: Physics 81  1  80-83   download
8. Annenkova, E.A., Kreider, W., and Sapozhnikov, O.A. “Nonlinear dynamics of a vapor–gas bubble in a superheated region of finite size” Bulletin of the Russian Academy of Sciences, Physics 81  1  76-79   download
9. Rosnitskiy P., Gavrilov L., Yuldashev P., Sapozhnikov O., Khokhlova V. “On the Possibility of Using Multi-Element Phased Arrays for Shock-Wave Action on Deep Brain Structures” Acoustical Physics 63  5  531-540   download
10. Karzova M.M., Yuldashev P.V., Rosnitskiy P.B., Khokhlova V.A. “Numerical Approaches to Simulating Nonlinear Ultrasound Fields Generated by Diagnostic-Type Transducers” Bulletin of the Russian Academy of Sciences: Physics 81  8  927-931   download

2016

1. P.B. Rosnitskiy, P.V. Yuldashev, B.A. Vysokanov, and V.A. Khokhlova “Setting boundary conditions to the Khokhlov–Zabolotskaya equation for modeling ultrasound fields generated by strongly focused transducers” Acoustical Physics 62  2  151–159   download
2. A.V. Nikolaeva, S.A. Tsysar, O.A. Sapozhnikov “Measuring the radiation force of megahertz ultrasound acting on a solid spherical scatterer” Acoustical Physics 62  1  38-45   download
3. E.A. Annenkova, S.A. Tsysar, O.A. Sapozhnikov “Constructing ultrasonic images of soft spherical scatterers” Acoustical Physics 62  2  169-178   download
4. P.B. Rosnitskiy, P.V. Yuldashev, O.A. Sapozhnikov, A. Maxwell, W. Kreider, M.R. Bailey, V.A. Khokhlova “Design of HIFU transducers to generate specific nonlinear ultrasound fields” Physics Procedia 87  132 – 138   download
5. C. Hunter, O.A. Sapozhnikov, A.D Maxwell, V.A. Khokhlova, Y.N. Wang, B. MacConaghy, W. Kreider “An ultrasonic caliper device for measuring acoustic nonlinearity” Physics Procedia 87  93 – 98   download
6. L. Gavrilov “Focused ultrasound stimulation of the peripheral nervous system: physical basis and practical applications (review)” International Journal of Modern Physics Advances in Theory and Applications 1  1  45-118   download

2015

1. S.A. Ilyin, P.V. Yuldashev, V.A. Khokhlova, L.R. Gavrilov, P.B. Rosnitskiy, and O.A. Sapozhnikov “Analytical Method for Evaluating the Quality of Acoustic Fields Radiated by a Multielement Therapeutic Array with Electronic Focus Steering” Acoustical Physics, 2015 61  1  52-59   download
2. J. C. Simon, O. A. Sapozhnikov, V. A. Khokhlova, L. A. Crum and M. R. Bailey “Ultrasonic atomization of liquids in drop-chain acoustic fountains” J. Fluid Mech. (2015) 766  129-146   download
3. Vera A. Khokhlova, J. Brian Fowlkes, William W. Roberts, George R. Schade, Zhen Xu, Tatiana D. Khokhlova,Timothy L. Hall, Adam D. Maxwell, Yak-Nam Wang, & Charles A. Cain “Histotripsy methods in mechanical disintegration of tissue: Towards clinical applications” Int J Hyperthermia, 2015 31  2  145-162   download
4. P. B. Rosnitskiy, P. V. Yuldashev, and V. A. Khokhlova “Effect of the Angular Aperture of Medical Ultrasound Transducers on the Parameters of Nonlinear Ultrasound Field with Shocks at the Focus” Acoustical Physics, 2015 61  3  301-307   download
5. J.C. Simon, O.A. Sapozhnikov, Y.N. Wang, V.A. Khokhlova, L.A. Crum, M.R. Bailey “Investigation into the mechanisms of tissue atomization by high intensity focused ultrasound” Ultrasound in Medicine & Biology 41  5  1372-1385   download
6. M.M. Karzova, P.V. Yuldashev, V.A. Khokhlova, S. Ollivier, E. Salze, Ph. Blanc-Benon “Characterization of spark-generated N-waves in air using an optical schlieren method” The Journal of the Acoustical Society of America 137  6  3244-3252   download
7. P.V. Yuldashev, M.M. Karzova, V.A. Khokhlova, S. Ollivier, Ph. Blanc-Benon “Mach-Zehnder interferometry method for acoustic shock wave measurements in air and broadband calibration of microphones” The Journal of the Acoustical Society of America 137  6  3314-3324   download
8. M.M. Karzova, V.A. Khokhlova, E. Salze, S. Ollivier, Ph. Blanc-Benon “Mach stem formation in reflection and focusing of weak shock acoustic pulses” The Journal of the Acoustical Society of America 137  EL436  436–442   download
9. M.M. Karzova, V.A. Khokhlova, E. Salze, S. Ollivier, and Ph Blanc-Benon “Mach stem formation in reflection and focusing of weak shock acoustic pulses” The Journal of the Acoustical Society of America 137  EL436  436–442   download
10. M. Monteiro, V. Svet, D. Sandilands, S. Tsysar “Experimental investigations of various methods of sludge measurements in storage oil tanks” Advances in Remote Sensing 4  119–137   download
11. Krit T.B., Andreev V.G., and Demin I.Yu. “Viscoelastic nonlinear resonator with gas-filled cavities” Acta Acustica united with Acustica 101  5  915-919
12. Soboleva E.G., Igisheva A.L., and Krit T.B. “Elastic properties of solid solutions with intermediate valence Sm1-xYxS” Applied Mechanics and Materials 770  137-143   download
13. S.A. Ilyin, L.R. Gavrilov, V.A. Khokhlova “Application of ultrasound phased arrays with different number of elements for irradiation of tissue behind the ribs” Memoirs of the Faculty of Physics  5  145342
14. O.A. Sapozhnikov, M.A. Smagin “Finding the dispersion relations for Lamb-type waves in a concave piezoelectric plate by optical visualization of the ultrasound field radiated into a fluid” Acoustical Physics 61  2  181-187   download
15. A.D. Maxwell, B.W. Cunitz, W. Kreider, O.A. Sapozhnikov, R.S. Hsi, J.D. Harper, M.R. Bailey, M.D. Sorensen “Fragmentation of urinary calculi in vitro by burst wave lithotripsy” Journal of Urology 193  1  338-344   download
16. V.A. Khokhlova, J.B. Fowlkes, W.W. Roberts, G.R. Schade, Z. Xu, T.D. Khokhlova, T.L. Hall, A.D. Maxwell, Y.N. Wang, C.A. Cain “Histotripsy methods in mechanical disintegration of tissue: Towards clinical applications” Int. J. Hyperthermia 31  2  145-162   download
17. J.C. Simon, O.A. Sapozhnikov, Y.N. Wang, V.A. Khokhlova, L.A. Crum, M.R. Bailey “Investigation into the mechanisms of tissue atomization by high intensity focused ultrasound” Ultrasound in Medicine & Biology 41  5  1372-1385   download
18. О.A. Sapozhnikov, S.A. Tsysar, V.A. Khokhlova, W. Kreider “Acoustic holography as a metrological tool for characterizing medical ultrasound sources and fields” The Journal of the Acoustical Society of America 138  3  1515-1532   download
19. A.N. Rybyanets, A.A. Naumenko, O.A. Sapozhnikov, V.A. Khokhlova “New methods and transducer designs for ultrasonic diagnostics and therapy” Physics procedia  70  1152-1156   download
20. Gavrilov L.R., Sapozhnikov O.A., Khokhlova V.A. “Spiral arrangement of elements of two-dimensional ultrasonic therapeutic arrays as a way of increasing the intensity at the focus” Bulletin of the Russian Academy of Sciences. Physics 79  10  1232–1237   download
21. M. M. Karzova , P. V. Yuldashev, V. A. Khokhlova, S. Ollivier, Ph. Blanc-Benon “Application of a Mach–Zehnder interferometer to the observation of mach stem formation when a shock wave is reflected from a rigid surface” Bulletin of the Russian Academy of Sciences: Physics. 79  10  1293-1295   download

2014

1. T. D. Khokhlova, Y.-N. Wang, J. C. Simon, B. W. Cunitz, F. Starr, M. Paun, L. A. Crum, M. R. Bailey, and V. A. Khokhlova “Ultrasound-guided tissue fractionation by high intensity focused ultrasound in an in vivo porcine liver model” PNAS 111  22  8161-8166   download
2. E. G. Lobanova, S. V. Lobanov, and V. A. Khokhlova “Counterpropagation of Waves with Shock Fronts in a Nonlinear TissueLike Medium” Acoustical Physics, 2014 60  4  387–397   download
3. E. Salze, P.V. Yuldashev, S. Ollivier, V.A. Khokhlova, P. Blanc-Benon “Laboratory-scale experiment to study nonlinear N-wave distortion by thermal turbulence” The Journal of the Acoustical Society of America 136  2  556-566   download
4. V. A. Khokhlova, Y.-N. Wang, S.V. Buravkov, A.D. Maxwell, T.D. Khokhlova, D.W. Lin, O.A. Sapozhnikov, M.R. Bailey, G.R. Schade “Histological analysis of mechanical lesions induced by high intensity focused ultrasound in ex-vivo human and porcine kidneys” Memoirs of the Faculty of Physics  5  145343
5. P.B. Rosnitskiy, P.V. Yuldashev, V.A. Khokhlova “Determination of the parameters of a high power ultrasound transducer to provide certain shock amplitude at the focus” Memoirs of the Faculty of Physics  5  145314
6. P.V. Yuldashev, A. Maxwell, W. Kreider, O.A. Sapozhnikov, M. Bailey, L. Crum, V.A. Khokhlova “Measurement and modeling of acoustic field of a therapeutic multielement transducer in a wide range of acoustic intensities up to appearance of saturation effect in the focus” Memoirs of the Faculty of Physics  5  145346

2013

1. W. Kreider, P. V. Yuldashev, O. A. Sapozhnikov, N. Farr, A. Partanen, M. R. Bailey, and V. A. Khokhlova “Characterization of a Multi-Element Clinical HIFU System Using Acoustic Holography and Nonlinear Modeling” IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control 60  8  1683-1698   download
2. V. A. Khokhlova, S. M. Shmeleva, L. R. Gavrilov, E. Martin, N. Sadhoo, and A. Shaw “Infrared mapping of ultrasound fields generated by medical transducers: Feasibility of determining absolute intensity levels” J. Acoust. Soc. Am. 134  2  1586–1597   download
3. Y.-N. Wang, T.D. Khokhlova, M.R. Bailey, J.-H. Hwang, V.A. Khokhlova “Histological and biochemical analysis of mechanical and thermal bioeffects in boiling histotripsy lesions induced by high intensity focused ultrasound” Ultrasound in Medicine & Biology 39  3  424-438
4. P.V. Yuldashev, S.M. Shmeleva, S.A. Ilyin, O.A. Sapozhnikov, L.R. Gavrilov, V.A. Khokhlova “The role of acoustic nonlinearity in tissue heating behind a rib cage using high intensity focused ultrasound phased array” Phys. Med. Biol. 58  8  2537-2559
5. V.A. Khokhlova, L.A. Crum “Introduction to the special issue on therapeutic ultrasound” J. Acoust. Soc. Am. 134  2  1441
6. C. Perez, H. Chen, T.J. Matula, M.S. Karzova, V.A. Khokhlova “Acoustic field characterization of the Duolith: Measurements and modeling of a clinical shockwave therapy device” J. Acoust. Soc. Am. 134  2  1663-1674
7. V.A. Khokhlova, Y.-N. Wang, S.V. Buravkov, A.D. Maxwell, T.D. Khokhlova, D.W. Lin, O.A. Sapozhnikov, M.R. Bailey, G.R. Schade “Histological analysis of mechanical lesions induced by high intensity focused ultrasound in ex-vivo human and porcine kidneys” Memoirs of the Faculty of Physics 39  3  424-438
8. Sapozhnikov O.A., and Bailey M.R. “Radiation force of an arbitrary acoustic beam on an elastic sphere in a fluid” . Acoust. Soc. Am. 133  2  661-676   download
9. Karabutov Jr., A.A., Kosevich Y.A., and Sapozhnikov O.A. “Bloch oscillations of an acoustic field in a layered structure” Acoustical Physics 59  2  137–147   download
10. Lu W., Sapozhnikov O.A., Bailey M.R., Kaczkowski P.J., and Crum L.A. “Evidence for trapped surface bubbles as the cause for the twinkling artifact in ultrasound imaging” Ultrasound in Medicine and Biology 39  6  1026-1038   download
11. Bailey M.R., Wang Y.-N. , Simon J.C., Cunitz B.W., Harper J.D., Hsi R.S., Starr F., Paun M., Dunmire B., Sapozhnikov O.A., Crum L.A., and Sorensen M.D. “Acoustic radiation force to reposition kidney stones” J. Acoust. Soc. Am. 133  5(2)  3279   download
12. Tsysar S., Kreider W., and Sapozhnikov O. “Improved hydrophone calibration by combining acoustic holography with the radiation force balance measurements” J. Acoust. Soc. Am. 133  5(2)  3296   download
13. Sapozhnikov O., Lu W., Bailey M., Kaczkowski P., and Crum L. “Bubbles trapped on the surface of kidney stones as a cause of the twinkling artifact in ultrasound imaging” J. Acoust. Soc. Am. 133  5(2)  3315   download
14. Khokhlova T.D., Li T., Sapozhnikov O.A., and Hwang J.H. “The use of twinkling artifact of Doppler imaging to monitor cavitation in tissue during high intensity focused ultrasound therapy” J. Acoust. Soc. Am. 133  5(2)  3315   download
15. Sapozhnikov O.A. “Review of the book «High intensity focused ultrasound in medicine»(by L.R. Gavrilov)” J. Acoust. Soc. Am. 133  6  4348-4349   download
16. Z.J. Zhou, L. Rufer, E. Salze, P. Yuldashev, S. Ollivier and M. Wong “Bulk micro-machined wide-band aero-acoustic microphone and its application to acoustic ranging ” Journal of Micromechanics and Microengineering 23  10  105006-105015   download
17. M. Canney, F. Chavrier, S. Tsysar et al. “A multi-element interstitial ultrasound applicator for the thermal therapy of brain tumors” Journal of the Acoustical Society of America 134  2  1647–1655   download

2012

1. M.M. Karzova, M.V. Averiyanov, O.A. Sapozhnikov, and V.A. Khokhlova “Mechanisms for saturation of nonlinear pulsed and periodic signals in focused acoustic beams” Acoust. Phys. 58  1  81–89   download
2. J.C. Simon, O.A. Sapozhnikov, V.A. Khokhlova, Y.-N. Wang, L.A. Crum, and M.R. Bailey “Ultrasonic atomization of tissue and its role in tissue fractionation by high intensity focused ultrasound” Phys. Med. Biol. 57  23  8061-8078   download
3. A. Maxwell, O. Sapozhnikov, M. Bailey, L. Crum, Z. Xu, B. Fowlkes, C. Cain, V. Khokhlova. “Disintegration of tissue using high intensity focused ultrasound: Two approaches that utilize shock waves” Acoustics Today 8  4  24-36
4. Sapozhnikov O.A. “An exact solution to the Helmholtz equation for a quasi-Gaussian beam in the form of а superposition of two sources and sinks with complex coordinates” Acoustical Physics 58  1  41–47   download

2011

1. P.V. Yuldashev, V.A. Khokhlova “Simulation of three-dimensional nonlinear fields of ultrasound therapeutic arrays” Acoust. Phys. 57  3  334-343
2. S.A. Ilyin, S.M. Bobkova, V.A. Khokhlova, L.R. Gavrilov “Simulation of thermal lesions in biological tissues irradiated by high-intensity focused ultrasound through the rib cage” Physics of Wave Phenomena 19  1  62-67
3. M.V. Averiyanov, Ph. Blanc-Benon, R.O. Cleveland, V.A. Khokhlova “Nonlinear and diffraction effects in propagation of N-waves in randomly inhomogeneous moving media” J. Acoust. Soc. Am. 129  4  1760-1772
4. T.D. Khokhlova, M.S. Canney, V.A. Khokhlova, O.A. Sapozhnikov, L.A. Crum, M. R. Bailey “Controlled tissue emulsification produced by high intensity focused ultrasound shock waves and millisecond boiling” J. Acoust. Soc. Am. 130  5  3498-3510
5. M. Averiyanov, S. Ollivier, V. Khokhlova, and Ph. Blanc-Benon “Nonlinear acoustic N-wave random focusing in fully developed turbulence: laboratory scale experiment” J. Acoust. Soc. Am. 130  6  3595-3607
6. Tsysar S.A., Sinelnikov Y.D., and Sapozhnikov O.A. “Characterization of cylindrical ultrasonic transducers using acoustic holography” Acoustical Physics 57  1  94–105   download
7. Kudryavtsev A.G., and Sapozhnikov O.A. “Determination of the exact solutions to the inhomogeneous Burgers equation with the use of the Darboux transformation” Acoustical Physics 57  3  311–319   download
8. Maxwell A.D., Wang T.-Y., Cain C.A., Fowlkes J.B., Sapozhnikov O.A., Bailey M.R., and Xu Z. “Cavitation clouds created by shock scattering from bubbles during histotripsy” J. Acoust. Soc. Am. 130  4  1888-1898   download
9. Kreider W., Crum L.A., Bailey M.R., and Sapozhnikov O.A. “A reduced-order, single bubble cavitation model with applications to therapeutic ultrasound” J. Acoust. Soc. Am. 130  5(2)  3511-3530   download
10. Kreider W., Crum L.A., Bailey M.R., and Sapozhnikov O.A. “Observations of the collapses and rebounds of millimeter-sized lithotripsy bubbles” J. Acoust. Soc. Am. 130  5(2)  3531-3540   download
11. Andreev V.G., Krit T.B., and Sapozhnikov O.A. “Shear waves in a resonator with cubic nonlinearity” Acoustical Physics 57  6  779–786   download
12. Andreev V.G., Krit T.B., Kostikov V.V., Shanin A.V., and Shinderuk S.I. “Shear standing waves in a resonator with a rubberlike inhomogeneous medium” Acoustical Physics 57  1  1-9   download
13. P. V. Yuldashev and V. A. Khokhlova “Simulation of three dimensional nonlinear fields of ultrasound therapeutic arrays” Acoustical Physics 57  3  334–343   download

2010

1. P.V. Yuldashev, N.A. Bryseva, M.V. Averiyanov, Ph. Blanc_Benon, and V.A. Khokhlova “Statistical properties of nonlinear diffracting N-wave behind a random phase screen” Acoust. Phys. 56  2  158-167
2. M. Canney, V. Khokhlova, O. Bessonova, M. Bailey, L. Crum “Shock-induced heating and millisecond boiling in gels and tissue due to high intensity focused ultrasound” Ultrasound in Medicine & Biology 36  2  250-267
3. S. Bobkova, L. Gavrilov, V. Khokhlova, A. Shaw, and J. Hand “Focusing of high intensity ultrasound through the rib cage using a therapeutic random phased array” Ultrasound in Medicine & Biology 36  6  888-906
4. O.V. Bessonova, V.A. Khokhlova, M.S. Canney, M.R. Bailey, and L.A. Crum “A derating method for therapeutic applications of high intensity focused ultrasound” Acoust. Phys. 56  3  376–385
5. P. V. Yuldashev, L. M. Krutyanskiі, V. A. Khokhlova, A. P. Brysev, and F. V. Bunkin “Distortion of the field of a focused finite_amplitude ultrasonic beam behind the random phase layer” Acoust. Phys. 56  4  467–474
6. V.A. Khokhlova, S.M. Bobkova, L.R. Gavrilov “Focus splitting associated with propagation of focused ultrasound through the rib cage” Acoust. Phys. 56  5  665–674
7. P. Yuldashev, S. Ollivier, M. Averiyanov, O. Sapozhnikov, V.Khokhlova, Ph. Blanc-Benon “Nonlinear propagation of spark-generated N-waves in air: Modeling and measurements using acoustical and optical methods” J. Acoust. Soc. Am. 128  6  3321-3333
8. L. Gavrilov, V. Khokhlova, S. Bobkova, A. Shaw, and J. Hand “Feasibility of noninvasive ultrasound surgery behind the rib cage” Medical Physics 3  53–64
9. Sorensen M.D., Shah A.R., Canney M.S., Sapozhnikov O.A., Teichman J.M., and Bailey M.R. “Ureteroscopic ultrasound technology to size kidney stone fragments: Proof of principle using a miniaturized probe in a porcine model” Journal of Endourology 24  6  939-942   download
10. Andreev V.G., Krit T.B., and Sapozhnikov O.A. “Standing waves in an elastic layer loaded with a finite mass” Acoustical Physics 56  2  168–173   download
11. Karabutov Jr., A.A., Karabutov A.A., and Sapozhnikov O.A. “Determination of the elastic properties of layered materials using laser excitation of ultrasound” Physics of Wave Phenomena 18  4  297-302   download
12. Andreev V.G., Krit T.B., and Sapozhnikov O.A. “Standing shear waves in rubberlike layered media” Acoustical Physics 56  5  605–612   download

2009

1. O.V. Bessonova, V.A. Khokhlova “Spatial structure of high intensity focused ultrasound beams of various geometry” Physics of Wave Phenomena 17  1  45-49
2. T.D. Khokhlova, M.S. Canney, D. Lee, K. Marro, V.A. Khokhlova, M.R. Bailey “Magnetic resonance imaging of boiling induced by high intensity focused ultrasound” J. Acoust. Soc. Am. 125  5  2420-2431
3. O.V. Bessonova, V.A. Khokhlova, M.R. Bailey, M.S. Canney, and L.A. Crum “Focusing of high power ultrasound beams and limiting values of shock wave parameters” Acoust. Phys. 55  4-5  463–473
4. S.M. Bobkova, S.A. Tsysar’, V.A. Khokhlova, and V.G. Andreev “Diffraction effects accompanying focused ultrasonic pulse propagation in a medium with a thermal inhomogeneity” Acoust. Phys. 55  4-5  474–481
5. Sapozhnikov, O.A., Morozov, A.V., and Cathignol D. “Acousto-optic interaction in laser vibrometry in a liquid” Acoustical Physics 55  3  365–375   download
6. Tsysar, S.A., Sapozhnikov, O.A., and Andreev V.G. “Acoustic tomography of temperature distribution in a medium heated by a focused ultrasound beam” Bulletin of the Russian Academy of Sciences: Physics 73  4  529–532
7. Sinelnikov Y.D., Fjield T., and Sapozhnikov O.A. “The mechanism of lesion formation by focused ultrasound ablation catheter for treatment of atrial fibrillation” Acoustical Physics 55  4-5  647–656   download

2008

1. P.V. Yuldashev, M.V. Averiyanov, V.A. Khokhlova, S. Ollivier, Ph. Blanc-Benon “Nonlinear spherically divergent shock waves propagating in a relaxing medium” Acoust. Phys. 54  1  32–41
2. M.S. Canney, M.R. Bailey, L.A. Crum, V.A. Khokhlova, and O.A. Sapozhnikov “Acoustic characterization of high intensity focused ultrasound fields: A combined measurement and modeling approach” J. Acoust. Soc. Am. 124  4  2406-2420

2007

1. Owen N.R., Bailey M.R., Crum L.A., Sapozhnikov O.A., and Trusov L.A. “The use of resonant scattering to identify stone fracture in shock wave lithotripsy” J. Acoust. Soc. Am. 121  1,Express Letters  EL41-EL47   download
2. Sapozhnikov O.A., Maxwell A.D., MacConaghy B., and Bailey M.R. “A mechanistic analysis of stone fracture in lithotripsy” J. Acoust. Soc. Am. 112  2  1190-1202   download
3. Ponomarev A.E., Bulatitski S.I., and Sapozhnikov O.A. “Compression and amplification of an ultrasonic pulse reflected from a one-dimensional layered structure” Acoustical Physics 53  2  127–135   download

2006

1. V.A. Khokhlova, M.R. Bailey, J.A. Reed, B.W. Cunitz, P.J. Kaczkowski, and L.A. Crum “Effects of nonlinear propagation, cavitation, and boiling in lesion formation by high intensity focused ultrasound in a gel phantom” J. Acoust. Soc. Am. 119  3  1834 – 1848
2. V.G.Andreev, V.A.Vedernikov, A.V.Morozov, V.A.Khokhlova “Monitoring of temperature evolution within the focal zone of ultrasound transducer” Acoust. Phys. 52  2  119 – 124
3. V.A. Khokhlova, A.E. Ponomarev, M.A. Averkiou, L.A. Crum “Nonlinear pulsed ultrasound beams radiated by rectangular focused diagnostic transducers” Acoust. Phys. 52  4  481–489
4. M.V. Averianov, V.A. Khokhlova, R.O. Cleveland, O.A. Sapozhnikov, Ph. Blanc-Benon “Parabolic equation for nonlinear acoustic wave propagation in inhomogeneous moving media” Acoust. Phys. 52  6  725-735
5. C. Lafon, V.A. Khokhlova, P.J. Kaczkowski, M.R. Bailey, O.A. Sapozhnikov, and L.A. Crum “Use of a bovine eye lens for observation of HIFU-induced lesions in real-time” Ultrasound in Med. and Biol. 32  11  1731-1741
6. Sapozhnikov O.A, Ponomarev A.E., and Smagin M.A. “Transient acoustic holography for reconstructing the particle velocity of the surface of an acoustic transducer” Acoustical Physics 52  3  324–330

2005

1. Bailey M.R., Pishchalnikov Y.A., Sapozhnikov O.A. Cleveland R.O. McAteer J.A. Miller N.A. Pishchalnikova I.V. Connors B.A. Crum L.A. and Evan A.P. “Cavitation detection during shock wave lithotripsy” Ultrasound Med. Biol. 31  9  1245-1256   download
2. Cleveland R.O., and Sapozhnikov O.A. “Modeling elastic wave propagation in kidney stones with application to shock wave lithotripsy” J. Acoust. Soc. Am. 118  4  2667-2676   download
3. Pishchalnikov Y.A., Sapozhnikov O.A., Bailey M.R., Pishchalnikova I.V., Williams Jr. J.C., and McAteer J.A. “Cavitation selectively reduces the negative-pressure phase of lithotripter shock pulses” Acoustics Research Letters Online (ARLO) 6  4  280-286   download
4. Lafon C., Zderic V., Noble M.L., Yuen J.C., Kaczkowski P.G., Sapozhnikov O.A., Chavrier F., Crum L.A., and Vaezy S. “Gel phantom for use in high-intensity focused ultrasound dosimetry” Ultrasound in Medicine and Biology 31  10  1383-1389   download

2004

1. E. A. Filonenko, L. R. Gavrilov, V. A. Khokhlova and J. W. Hand “Heating of biological tissues by two-dimensional phased arrays with random and regular element distribution” Acoust. Phys. 50  2  222-231
2. O.A. Sapozhnikov, V.A. Khokhlova, and D.Cathignol “Nonlinear waveform distortion and shock formation in the near field of a continuous wave piston source” J. Acoust. Soc. Am. 115  5(1)  1982-1987
3. M.S. Basova and V.A. Khokhlova “Effect of frequency-dependent absorption on propagation of nonlinear acoustic wave with shocks” Physics of Wave Phenomena 12  3  126-132
4. Rudenko O.V., and Sapozhnikov O.A. “Self-action effects for wave beams containing shock fronts” Physics-Uspekhi 47  9  907-922   download
5. Crum L.A., Bailey M.R., Guan J., Hilmo P.R., Kargl S.G., Matula T.J., and Sapozhnikov O.A. “Monitoring bubble growth in supersaturated blood and tissue ex vivo and the relevance to marine mammal bioeffects” Acoustics Research Letters Online (ARLO) 6  3  214-220   download

2003

1. M.R. Bailey, V.A. Khokhlova, O.A. Sapozhnikov, S.G. Kargl, and L.A. Crum “Physical mechanisms of the therapeutic effect of ultrasound” Acoust. Phys. 49  4  369-388
2. Sapozhnikov O.A., Pishchalnikov Y.A., and Morozov A.V. “Reconstruction of the normal velocity distribution on the surface of an ultrasonic transducer from the acoustic pressure measured on a reference surface” Acoustical Physics 49  3  354–360   download
3. 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 in the breakage of kidney stones by lithotripter shockwaves” Journal of Endourology 17  7  435-446   download
4. 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 11  4  177-219

2002

1. O.V. Sapozhnikov, V.A. Khokhlova, M.R. Bailey, J.C. Williams, J.A. McAteer, R.O. Cleveland, and L.A. Crum “Effect of overpressure and pulse repetition frequency on cavitation in shock wave lithotripsy” J. Acoust. Soc. Am. 112  3(1)  1183 – 1195
2. Pishchalnikov, Y.A., Sapozhnikov, O.A., and Sinilo, T.V. “Increase of the efficiency of the shear wave generation in gelatine due to the nonlinear absorption of a focused ultrasonic beam” Acoustical Physics 48  2  214-219
3. Sapozhnikov O.A. and Sinilo T.V. “Acoustic field produced by a concave radiating surface with allowance for the diffraction” Acoustical Physics 48  6  720-727   download
4. Morozov A.V., Sapozhnikov O.A., and Pishchalnikov Y.A. “Method of measurements of vibrational velocity on ultrasonic source surface: Numerical analysis of accuracy” Physics of Vibrations 10  2  93-99   download

2001

1. M.R. Bailey, L.N. Couret, O.A. Sapozhnikov, V.A. Khokhlova, G. ter Haar, S. Vaezy, X. Shi, R. Martin,, L.A. Crum “Use of overpressure to assess the role of bubbles in focused ultrasound lesion shape in vitro” Ultrasound in Med. and Biol. 27  5  695 –708
2. V.A. Khokhlova, R. Souchon, J. Tavakkoli, O.A. Sapozhnikov, and D. Cathignol “Numerical modeling of finite amplitude sound beams: Shock formation in the nearfield of a cw plane piston source” J. Acoust. Soc. Am. 110  1  95-108
3. E.A. Filonenko, V.A. Khokhlova “Effect of acoustic nonlinearity on heating of biological tissue induced by high intensity focused ultrasound” Acoust. Phys. 47  4  468-475

2000

1. V.A. Khokhlova, E.A. Filonenko “Thermal phenomena at focusing a powerful ultrasonic beam in a two-layer (water – biological tissue) medium” Bulletin of the Russian Academy of Sciences, Physics 64  12  1854-1858
2. V.A. Khokhlova, O.A. Sapozhnikov, S.S. Kashcheeva, P. Lotton, V.E. Gusev, S. Job, and M. Bruneau “Effects of nonlinear saturation for acoustic waves propagating in a medium with frequency dependent gain” Bulletin of the Russian Academy of Sciences, Physics 64  12  1850-1853
3. A.A. Slavnov, V.A. Khokhlova “Numerical modeling of nonlinear waves with shocks in a waveform and waveform derivative” Mosc. Univ. Phys. Bull. , ser. 3, Physics and Astronomy  1  28-31
4. F.P. Curra, P.D. Mourad, V.A. Khokhlova and L.A. Crum “Numerical simulations of heating patterns and tissue temperature response due to high-intensity focused ultrasound” IEEE Trans. Ultrason., Ferroelect., Freq. Contr. 47  4  1077-1089
5. S.S. Kashcheeva, O.A. Sapozhnikov, V.A. Khokhlova, M.A. Averkiou, and L.A. Crum “Nonlinear distortion and attenuation of intense acoustic waves in lossy media obeying a frequency power law” Acoustical Physics 46  2  170-177
6. 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 for therapeutic ultrasound” Ultrasound in Medicine and Biology 26  1  153-159   download
7. Cleveland, R.O., Sapozhnikov, O.A., Bailey, M.R., and Crum, L.A. “A dual passive cavitation detector for localized detection of lithotripsy-induced cavitation in vitro” J.Acoust.Soc.Am. 107  3  1745-1758   download
8. Sapozhnikov, O.A., and Hamilton, M.F. “Nonlinear wave processes in acoustics” J.Acoust.Soc.Am. 108  1  14-15

1999

1. V.G. Andreev, Yu.A. Pishchal’nikov, O.A. Sapozhnikov, V.A. Khokhlova, and R.O. Cleveland “Diagnostics of a relaxing medium by an acoustic pulse with shock front.” Acoustical Physics 45  1  8-13
2. S.V. Gor’kova, S. Kargl, and V.A. Khokhlova “Nonlinear and diffraction effects in acoustic beams of cylindrical symmetry” Acoustical Physics 45  5  615-621
3. E.A. Filonenko V.A. Khokhlova “Modeling of thermal processes in biological tissue induced by focused ultrasound” Mosc. Univ. Phys. Bull., ser. 3, Physics and Astronomy  29-31
4. Gaidukov Y.P., Danilova N.P., and Sapozhnikov O.A. “Vibration modes of an isotropic disk with a weak dependence of the disk thickness” Acoustical Physics 45  2  163-171
5. Cathignol D., Sapozhnikov O.A., and Theillere Y. “Comparison of acoustic fields radiated from piezoceramic and piezocomposite focused radiators” J.Acoust.Soc.Am. 105  5  2612 2617
6. Cathignol, D., and Sapozhnikov, O.A. “On the application of the Rayleigh integral to the calculation of the field of a concave focusing radiator” Acoustical Physics 45  6  735-742

1998

1. S.S. Kasheeva and V.A. Khokhlova “Nonlinear Evolution of Single Shock Pulse in Medium with Power Frequency Law of Absorption” Proc. of Academy of Sciences, ser. Physics 62  12  2375-2378
2. Tavakkoli J., Cathignol D., Souchon R., and Sapozhnikov O.A. “Modeling of pulsed finite-amplitude focused sound beams in time domain” J.Acoust.Soc.Am. 104  4  2061-2072
3. Andreev, V.G., Klopotov, R.V., Pishchalnikov Y.A., Sapozhnikov, O.A. “Shear wave excited in a rubberlike medium by an acoustic pulse with shock front” Bulletin of the Russian Academy of Sciences. Physics 62  12  1903-1906
4. Kudryavtsev, A.G. and Sapozhnikov, O.A. “Symmetries of the generalized Khokhlov-Zabolotskaya equation” Acoustical Physics 44  5  541-546
5. Kudryavtsev A.G. and Sapozhnikov O.A. “Properties of powerful acoustic beams described by the generalized Khokhlov-Zabolotskaya equation” Acoustical Physics 44  6  704-708

1997

1. M.F. Hamilton, V.A. Khokhlova, and O.V. Rudenko “New method of calculation of paraxial region of intense acoustic beams” Acoustical Physics 43  1  39-44
2. M.F. Hamilton, V.A. Khokhlova, and O.V. Rudenko “Analytical method for describing the paraxial region of finite amplitude sound beams” J. Acoust. Soc. Am. 101  3  1298-1308
3. Andreev, V.G., Dmitriev, V.N., Pishchal’nikov, Y.A., Rudenko, O.V., Sapozhnikov, O.A., and Sarvazyan, A.P. “Observation of shear waves excited by focused ultrasound in a rubber-like medium” Acoustical Physics 43  2  123-128

1996

1. Yu.A. Pishal’nikov, O.A. Sapozhnikov and V.A. Khokhlova “A modification of the spectral description of nonlinear acoustic waves with discontinuities” Acoustical Physics 42  3  362-367
2. A.N. Dubrovskii, V.A. Khokhlova, and O.V. Rudenko “Fluctuation characteristics of a sonic boom after passing through randomly inhomogeneous layer” Acoustical Physics 42  5  550-554
3. Dupenloup, F., Chapelon, J.Y., Cathignol, D.J., and Sapozhnikov, O.A. “Reduction of the grating lobes of annular arrays used in focused ultrasound surgery” IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control 43  6  991-998

1994

1. O.V. Rudenko and V.A. Khokhlova “Statistics of Sawtooth Acoustic Waves with Random Space Modulation” Acoustical Physics 40  1  111-115
2. A.N. Dubrovskii, O.A. Sapozhnikov, V.A. Khokhlova “Nonlinear and diffraction effects in a beam of weak shocks” In: “Univ. of Russia”, ser. “Physics”, Moscow Univ. Publ.  123-129
3. Rudenko O.V. and Sapozhnikov O.A. “Wave beams in cubically nonlinear nondispersive media” JETP 79  2  220-229

1993

1. Musatov A.G., and Sapozhnikov O.A. “Focusing of powerful acoustic pulses under different convergence angles of wave front” Sov. Phys. – Acoust. (USA) 39  2  166-169
2. Rudenko O.V, and Sapozhnikov O.A. “Undelayed self-focusing of nondispersive waves with a broad spectrum” Quantum Electronics 23  10  896–898

1992

1. Musatov A.G., Rudenko O.V., and Sapozhnikov O.A. “Nonlinear refraction and nonlinear absorption in the focusing of high-intensity pulses” Sov. Phys. – Acoust. (USA) 38  3  274-279
2. Andreev V.G., Veroman V.Y., Denisov G.A., Rudenko O.V., and Sapozhnikov O.A. “Nonlinear acoustical aspects of extracorporeal lithotripsy” Sov. Phys. – Acoust. (USA) 38  4  325-327

1991

1. V.A. Khokhlova, O.V. Rudenko “Kinetics of one-dimensional sawtooth waves” Sov. Phys. Acoust 37  1  90-93
2. I.I. Ivanchik, V.A. Khokhlova “Transformation of the two-point distribution functions of the parameters of a sound field in a nonlinear medium” Sov. Phys. Acoust 37  4  369-372
3. Sapozhnikov O.A. “Focusing of high-intensity acoustic pulses” Sov. Phys.- Acoust. (USA) 37  4  395-400

1990

1. Rudenko O.V., Sagatov M.M., and Sapozhnikov O.A. “Thermal self-focusing of sawtooth waves” JETP 71  3  449-454

1989

1. V.A. Khokhlova, O.V. Rudenko “The kinetic equation of the one-dimensional acoustical turbulence” Vestn. Mosk. Univ.3 , Fiz. Astron.(USSR) 30  64-69
2. Karabutov A.A., Rudenko O.V., and Sapozhnikov O.A. “Thermal self-focusing of weak shock waves” Sov. Phys. – Acoust. (USA) 35  1  40-41

1988

1. O.V. Rudenko, V.A. Khokhlova “Kinetic approach to the description of one-dimensional acoustical turbulence” Sov. Phys. Acoust. (USA) 34  289-292
2. Karabutov A.A., Rudenko O.V., and Sapozhnikov O.A. “Equations for thermal self-focussing in a liquid” Mosc. Univ. Phys. Bull. (USA) 43  4  68-72
3. Karabutov A.A., Rudenko O.V., and Sapozhnikov O.A. “Theory of thermal self-focusing with allowance for the generation of shock waves and acoustic streaming” Sov. Phys. – Acoust. (USA) 34  4  371-374
4. Karabutov A.A. and Sapozhnikov O.A. “Finite-amplitude acoustic waves in a transonic zone of a compressible gas flow” Sov. Phys. – Acoust. (USA) 34  5  501-504
5. Rudenko O.V. and Sapozhnikov O.A. “Theoretical description of thermal self-focusing of saw-tooth acoustic waves” Mosc. Univ. Phys. Bull. (USA) 43  6  106-108

1987

1. O.V. Rudenko, V.A. Khokhlova “The statistical characteristics of high intensity diffracting acoustical noise” Mosc. Univ. Phys. Bull. (USA) 42  59-63
2. O.V. Rudenko, V.A. Khokhlova “On nonlinear and diffraction effects in the sound beams with the random cross structure” Sov. Phys. Acoust. (USA) 33  195-199
3. Armeev V.Y., Karabutov A.A., and Sapozhnikov O.A. “Distinctive features of the thermal self-focusing of ultrasound in a liquid” Sov. Phys. – Acoust. (USA) 33  2  109-111

1986

1. O.V. Rudenko, V.A. Khokhlova “Calculation of the statistical characteristics of diffracting high intensity acoustical noise” Mosc. Univ. Phys. Bull. (USA) 41  5  37-42
2. Karabutov A.A. and Sapozhnikov O.A. “Reflection of acoustic disturbances from the transonic zone of a Laval nozzle” Sov. Phys. – Acoust. (USA) 32  4  338-340
3. Andreev V.G., Armeev V.Y., Karabutov A.A., Rudenko O.V., and Sapozhnikov O.A. “Self-action and bistability in an acoustic resonator” Acoust. (USA) 32  5  404-405

1985

1. V.G. Andreev, O.V. Rudenko, V.A. Khokhlova, O.A. Sapozhnikov “Suppression of nonlinear damping of a sound wave in a medium which contains a resonant absorber with a finite line width” Mosc. Univ. Phys. Bull. (USA) 40  67-71
2. Andreev, V.G., Gusev, V.E., Karabutov, A.A., Rudenko, O.V., and Sapozhnikov, O.A. “Enhancement of the Q of a nonlinear acoustic resonator by means of a selectively absorbing mirror” Sov. Phys. – Acoust. (USA) 31  2  162-163
3. Andreev, V.G., Karabutov, A.A., Rudenko, O.V., and Sapozhnikov, O.A. “Observation of self-focusing of sound” JETP Lett. (USA) 41  9  466-469
4. Andreev, V.G., Karabutov, A.A., Rudenko, O.V., and Sapozhnikov, O.A. “Observation of the self-induced thermal action of a high-intensity ultrasonic beam in water” 31  5  393-394