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   Acoustics.
      Elastic and vibrations waves.
         Acoustical wave propagation.
            Focusing.
Time reversal focusing of high amplitude sound in a reverberation chamber
Matthew L. Willardson, Brian E. Anderson, Sarah M. Young, Michael H. Denison et al.
J. Acoust. Soc. Amer., Vol: 143, No: 2 , published: 01 February 2018
ОДНОМЕРНАЯ МОДЕЛЬ УРАВНЕНИЙ ТИПА ХОХЛОВА-ЗАБОЛОТСКОЙ ДЛЯ ВОЛН В ФОКАЛЬНОЙ ОБЛАСТИ КУБИЧНОЙ И КВАДРАТИЧНО-КУБИЧНОЙ НЕЛИНЕЙНЫХ СРЕД
Руденко О.В.
Докл. РАН, Vol: 2017, No: 5 , published: 05 September 2017
Frequency domain synthetic aperture focusing technique for variable-diameter cylindrical components
Haoran Jin,Eryong Wu,Ye Han,Keji Yang,Jian Chen
J. Acoust. Soc. Amer., Vol: 142, No: 3 , published: 03 September 2017
Calibration of focused ultrasonic transducers and absolute measurements of fluid nonlinearity with diffraction and attenuation corrections
Xiongbing Li,Shuzeng Zhang,Hyunjo Jeong,Sungjong Cho
J. Acoust. Soc. Amer., Vol: 142, No: 2 , published: 10 August 2017
The effect of transducer directivity on time reversal focusing
Brian E. Anderson,Miles Clemens,Matthew L. Willardson
J. Acoust. Soc. Amer., Vol: 142, No: 1 , published: 10 July 2017
Broadband focusing of underwater sound using a transparent pentamode lens
Xiaoshi Su,Andrew N. Norris,Colby W. Cushing,Michael R. Haberman,Preston S. Wilson
J. Acoust. Soc. Amer., Vol: 141, No: 6 , published: 11 June 2017
Numerical study of a confocal ultrasonic setup for cavitation creation
Maxime Lafond,Fabrice Prieur,Françoise Chavrier,Jean-Louis Mestas,Cyril Lafon
J. Acoust. Soc. Amer., Vol: 141, No: 3 , published: 30 March 2017
Accurate simulation of transcranial ultrasound propagation for ultrasonic neuromodulation and stimulation
James L. B. Robertson, Ben T. Cox, J. Jaros, and Bradley E. Treeby
J. Acoust. Soc. Amer., Vol: 141, No: 3 , published: 01 March 2017
Time reversal focusing of elastic waves in plates for an educational demonstration
Christopher Heaton, Brian E. Anderson, and Sarah M. Young
J. Acoust. Soc. Amer., Vol: 141, No: 2 , published: 01 February 2017
A prediction model for two-dimensional pressure distribution from underwater shock wave focusing by an ellipsoidal reflector
Lei Liu, Rui Guo, Liang Chen, Yu Cao, Yongliang Yang, Bobo Zhao
J. Acoust. Soc. Amer., Vol: 140, No: 6 , published: 01 December 2016
Resonant metalenses for flexural waves in plates
Andrea Colombi
J. Acoust. Soc. Amer., Vol: 140, No: 5 , published: 01 November 2016
Design of passive directional acoustic devices using Topology Optimization - from method to experimental validation
Rasmus E. Christiansen, Efren Fernandez-Grande
J. Acoust. Soc. Amer., Vol: 140, No: 5 , published: 01 November 2016
Total Focusing Method With Virtual Sources in the Presence of Unknown Geometry Interfaces
Jorge F. Cruza,Jorge Camacho
IEEE Trans. Ultrason., Ferroelec., and Freq. Contr., Vol: 63, No: 10 , published: 01 October 2016
A self-reciprocity calibration method for broadband focused transducers
Shuzeng Zhang, Christopher M. Kube, Yongfeng Song, Xiongbing Li
J. Acoust. Soc. Amer., Vol: 140, No: 3 , published: 01 September 2016
Обратная задача нелинейной акустики: синтез интенсивных сигналов для усиления теплового и радиационного воздействия ультразвука
Руденко О.В., Гурбатов С.Н.
Акуст. ж., Vol: 62, No: 4 , published: 30 August 2016
Negative reflection of Lamb waves at a free edge: Tunable focusing and mimicking phase conjugation
Benoît Gérardin, Jérôme Laurent, Claire Prada, Alexandre Aubry
J. Acoust. Soc. Amer., Vol: 140, No: 1 , published: 01 July 2016
A high transmission broadband gradient index lens using elastic shell acoustic metamaterial elements
Alexey S. Titovich, Andrew N. Norris, Michael R. Haberman
J. Acoust. Soc. Amer., Vol: 139, No: 6 , published: 01 June 2016
Focusing, refraction, and asymmetric transmission of elastic waves in solid metamaterials with aligned parallel gaps
Xiaoshi Su, Andrew N. Norris
J. Acoust. Soc. Amer., Vol: 139, No: 6 , published: 01 June 2016
Граничное условие для расчета полей сильно фокусирующих излучателей на основе уравнения Хохлова–Заболотской
Росницкий П.Б., Юлдашев П.В., Высоканов Б.А., Хохлова В.А.
Акуст. ж., Vol: 62, No: 2 , published: 01 April 2016
Detection of Contrast Agents: Plane Wave Versus Focused Transmission
J. Viti, H. J. Vos, N. d. Jong, F. Guidi, P. Tortoli
IEEE Trans. Ultrason., Ferroelec., and Freq. Contr., Vol: 63, No: 2 , published: 01 February 2016
A Focused Low-Intensity Pulsed Ultrasound (FLIPUS) System for Cell Stimulation: Physical and Biological Proof of Principle
Puts R., Ruschke K., Ambrosi T.H., Kadow-Romacker A., Knaus P., Jenderka K.-V., Raum K.
IEEE Trans. Ultrason., Ferroelec., and Freq. Contr., Vol: 63, No: 1 , published: 01 January 2016
In Vivo application and localization of transcranial focused ultrasound using dual-mode ultrasound arrays
Haritonova A., Dalong Liu, Ebbini E.S.
IEEE Trans. Ultrason., Ferroelec., and Freq. Contr., Vol: 62, No: 12 , published: 01 December 2015
Accuracy of a bistatic scattering substitution technique for calibration of focused receivers
Kyle T. Rich, T. Douglas Mast
J. Acoust. Soc. Amer., Vol: 138, No: 5 , published: 01 November 2015
Methods to calibrate the absolute receive sensitivity of single-element, focused transducers
Kyle T. Rich, T. Douglas Mast
J. Acoust. Soc. Amer., Vol: 138, No: 3 , published: 01 September 2015
High-intensity focused ultrasound monitoring using harmonic motion imaging for focused ultrasound (HMIFU) under boiling or slow denaturation conditions
Gary Y.Hou, Marquet, F., Wang, S., Apostolakis, I.-Z, Konofagou, E.E.
IEEE Trans. Ultrason., Ferroelec., and Freq. Contr., Vol: 62, No: 7 , published: 15 July 2015
Distribution of temperature elevation caused by moving high-intensity focused ultrasound transducer
Jungsoon Kim, Jihee Jung, Moojoon Kim, Kanglyeol Ha, Eunghwa Lee and Ilkwon Lee
Jpn. J. Appl. Phys., Part 2, Vol: 54, No: 7S1 , published: 01 July 2015
Влияние угловой апертуры медицинских ультразвуковых излучателей на параметры нелинейного ударно-волнового поля в фокусе
Росницкий П.Б., Юлдашев П.В., Хохлова В.А.
Акуст. ж., Vol: 61, No: 3 , published: 10 June 2015
Mach stem formation in reflection and focusing of weak shock acoustic pulses
Maria M. Karzova, Vera A. Khokhlova, Edouard Salze, Sébastien Ollivier, Philippe Blanc-Benon
J. Acoust. Soc. Amer., Vol: 137, No: 6 , published: 01 June 2015
Point focusing using loudspeaker arrays from the perspective of optimal beamforming
Mingsian R. Bai, Yu-Hao Hsieh
J. Acoust. Soc. Amer., Vol: 137, No: 6 , published: 01 June 2015
Дифракция интенсивного поля в фокальной области как динамика нелинейной системы с низкочастотной дисперсией
РуденкоО.В., ХедбергК.М.
Акуст. ж., Vol: 61, No: 1 , published: 18 February 2015
Localization of focused-ultrasound beams in a tissue phantom, using remote thermocouple arrays
Hariharan, P., Dibaji, S.A.R., Banerjee, R.K., Nagaraja, S., Myers, M.R.
IEEE Trans. Ultrason., Ferroelec., and Freq. Contr., Vol: 61, No: 12 , published: 02 December 2014
Toric focusing for radiation force applications using a toric lens coupled to a spherically focused transducer
Arnal, B., Thu-Mai Nguyen, O'Donnell, M.
IEEE Trans. Ultrason., Ferroelec., and Freq. Contr., Vol: 61, No: 12 , published: 02 December 2014
One-dimensional single-sided acoustic focusing in a Goupillaud layered model
Yinquan Zhang, Ning Wang, Pengyu Wang
J. Acoust. Soc. Amer., Vol: 136, No: 5 , published: 01 November 2014
Rapid prototyping fabrication of focused ultrasound transducers
Yohan Kim Maxwell, A.D. Hall, T.L. Zhen Xu Kuang-Wei Lin Cain, C.A.
IEEE Trans. Ultrason., Ferroelec., and Freq. Contr., Vol: 61, No: 9 , published: 11 September 2014
Enhancing the focal-resolution of aeroacoustic time-reversal using a point sponge-layer damping technique
A. Mimani, C. J. Doolan, P. R. Medwell
J. Acoust. Soc. Amer., Vol: 136, No: 3 , published: 01 September 2014
Focusing capability of a phononic crystal based on a hollow metallic structure
Hladky-Hennion A.-C., Croenne C., Vasseur J.O., Haumesser L., Norris A.N.
IEEE Trans. Ultrason., Ferroelec., and Freq. Contr., Vol: 61, No: 8 , published: 01 August 2014
Ultrasonic imaging of complex specimens by processing multiple incident angles in full-angle synthetic aperture focusing technique
Scharrer T., Schrapp M., Rupitsch S., Sutor A., Lerch R.
IEEE Trans. Ultrason., Ferroelec., and Freq. Contr., Vol: 61, No: 5 , published: 01 May 2014
Generalized frequency-domain synthetic aperture focusing technique for ultrasonic imaging of irregularly layered objects
Kaihuai Qin, Chun Yang, Feng Sun
IEEE Trans. Ultrason., Ferroelec., and Freq. Contr., Vol: 61, No: 1 , published: 01 January 2014
Dependence of the reversibility of focused- ultrasound-induced blood-brain barrier opening on pressure and pulse length in vivo
Samiotaki G., Konofagou E.E.
IEEE Trans. Ultrason., Ferroelec., and Freq. Contr., Vol: 60, No: 11 , published: 01 November 2013
Nonlinear derating of high-intensity focused ultrasound beams using Gaussian modal sums
Seyed Ahmad Reza Dibaji, Rupak K. Banerjee, Joshua E. Soneson, Matthew R. Myers
J. Acoust. Soc. Amer., Vol: 134, No: 5 , published: 01 November 2013
On the lateral resolution of focused ultrasonic fields from spherically curved transducers
K. Beissner
J. Acoust. Soc. Amer., Vol: 134, No: 5 , published: 01 November 2013
Increasing the modal density in plates for mono-element focusing in air
Nicolas Etaix, Jerôme Dubois, Mathias Fink, Ros-Kiri Ing
J. Acoust. Soc. Amer., Vol: 134, No: 2 , published: 01 August 2013
Nonlinear focal shift beyond the geometrical focus in moderately focused acoustic beams
Francisco Camarena, Silvia Adrián-Martínez, Noé Jiménez, Víctor Sánchez-Morcillo
J. Acoust. Soc. Amer., Vol: 134, No: 2 , published: 01 August 2013
Phase-shift perfluorocarbon agents enhance high intensity focused ultrasound thermal delivery with reduced near-field heating
Linsey C. Phillips, Connor Puett, Paul S. Sheeran, Paul A. Dayton, G. Wilson Miller, Terry O. Matsunaga
J. Acoust. Soc. Amer., Vol: 134, No: 2 , published: 01 August 2013
Transcostal high-intensity focused ultrasound treatment using phased array with geometric correction
Shan Qiao, Guofeng Shen, Jingfeng Bai, Yazhu Chen
J. Acoust. Soc. Amer., Vol: 134, No: 2 , published: 01 August 2013
Assessment of high-intensity focused ultrasound treatment of rodent mammary tumors using ultrasound backscatter coefficients
Jeremy P. Kemmerer, Goutam Ghoshal, Chandra Karunakaran, Michael L. Oelze
J. Acoust. Soc. Amer., Vol: 134, No: 2 , published: 01 August 2013
Time-reversal acoustics and ultrasound-assisted convection-enhanced drug delivery to the brain
William Olbricht, Manjari Sistla, Gaurav Ghandi, George Lewis, Jr., Armen Sarvazyan
J. Acoust. Soc. Amer., Vol: 134, No: 2 , published: 01 August 2013
Microbubble behavior in an ultrasound field for high intensity focused ultrasound therapy enhancement
Kohei Okita, Kazuyasu Sugiyama, Shu Takagi, Yoichiro Matsumto
J. Acoust. Soc. Amer., Vol: 134, No: 2 , published: 01 August 2013
Experimentally validated multiphysics computational model of focusing and shock wave formation in an electromagnetic lithotripter
Daniel E. Fovargue, Sorin Mitran, Nathan B. Smith, Georgy N. Sankin, Walter N. Simmons, Pei Zhong
J. Acoust. Soc. Amer., Vol: 134, No: 2 , published: 01 August 2013
High intensity focused ultrasound ablation and antitumor immune response
Feng Wuhttp://scitation.aip.org/content/asa/journal/jasa/134/2/10.1121/1.4812893
J. Acoust. Soc. Amer., Vol: 134, No: 2 , published: 01 August 2013
Computational study on the propagation of strongly focused nonlinear ultrasound in tissue with rib-like structures
Jiexing Lin, Xiaozhou Lhttp://scitation.aip.org/content/asa/journal/jasa/134/2/10.1121/1.4812897iu, Xiufen Gong, Zihong Ping, Junru Wu
J. Acoust. Soc. Amer., Vol: 134, No: 2 , published: 01 August 2013
A high amplitude, time reversal acoustic non-contact excitation (trance)
Pierre-Yves Le Bas, T. J. Ulrich, Brian E. Anderson, J. James Esplin
J. Acoust. Soc. Amer., Vol: 134, No: 1 , published: 01 July 2013
New method for real-time dynamic focusing through interfaces
Cruza J.F., Camacho J., Serrano-Iribarnegaray L., Fritsch C.
IEEE Trans. Ultrason., Ferroelec., and Freq. Contr., Vol: 60, No: 4 , published: 01 April 2013
Transient axial solution for plane and axisymmetric waves focused by a paraboloidal reflector
Yi-Te Tsai, Jinying Zhu, Michael R. Haberman
J. Acoust. Soc. Amer., Vol: 133, No: 4 , published: 01 April 2013
Membrane hydrophone measurement and numerical simulation of HIFU fields up to developed shock regimes
Bessonova O.V., Wilkens V.
IEEE Trans. Ultrason., Ferroelec., and Freq. Contr., Vol: 60, No: 2 , published: 01 February 2013
Reliable estimation of virtual source position for SAFT imaging
Chih-Hsiung Chang, Young-Fo Chang, Yushieh Ma, Shung K.K.
IEEE Trans. Ultrason., Ferroelec., and Freq. Contr., Vol: 60, No: 2 , published: 01 February 2013
Radiation force of an arbitrary acoustic beam on an elastic sphere in a fluid
Oleg A. Sapozhnikov, Michael R. Bailey
J. Acoust. Soc. Amer., Vol: 133, No: 2 , published: 01 February 2013
Broadband focusing ultrasonic transducers based on dimpled LiNbO3 plate with inversion layer
Chen J., Dai J.-Y., Zhang C., Zhang Z., Feng G.
IEEE Trans. Ultrason., Ferroelec., and Freq. Contr., Vol: 59, No: 12 , published: 01 December 2012
Synthetic aperture focusing of outwardly directed cylindrical ultrasound scans
Skjelvareid M.H., Birkelund Y., Larsen Y.
IEEE Trans. Ultrason., Ferroelec., and Freq. Contr., Vol: 59, No: 11 , published: 01 November 2012
Scattering of focused ultrasonic beams by cavities in a solid half-space
Ehsan Kabiri Rahni, Talieh Hajzargarbashi, Tribikram Kundu
J. Acoust. Soc. Amer., Vol: 132, No: 2 , published: 01 August 2012
A parametric study of error in the parabolic approximation of focused axisymmetric ultrasound beams
Joshua E. Soneson
J. Acoust. Soc. Amer., Vol: 131, No: 6 , published: 01 June 2012
Broadband acoustic concentrator with multilayered alternative homogeneous materials
Yu-ran Wang, Hui Zhang, Shu-yi Zhang, Li Fan, Hong-xiang Sun
J. Acoust. Soc. Amer., Vol: 131, No: 2 , published: 01 February 2012
A selective array activation method for the generation of a focused source considering listening position
Min-Ho Song, Jung-Woo Choi, Yang-Hann Kim
J. Acoust. Soc. Amer., Vol: 131, No: 2 , published: 01 February 2012
A comparative evaluation of three hydrophones and a numerical model in high intensity focused ultrasound fields
Julian Haller, Klaus-Vitold Jenderka, Gianni Durando, Adam Shaw
J. Acoust. Soc. Amer., Vol: 131, No: 2 , published: 01 February 2012
Focusing of longitudinal ultrasonic waves in air with an aperiodic flat lens
John T. Welter, Shamachary Sathish, Daniel E. Christensen, Philip G. Brodrick, Jason D. Heebl, Matthew R. Cherry
J. Acoust. Soc. Amer., Vol: 130, No: 5 , published: 01 November 2011
Quasi-Gaussian beam analytical basis and comparison with an alternative approach (L)
Philip L. Marston
J. Acoust. Soc. Amer., Vol: 130, No: 3 , published: 01 September 2011
Scattering of focused ultrasonic beams by two spherical cavities in close proximity
Hajzargarbashi T., Rahani E.K., Kundu T.
IEEE Trans. Ultrason., Ferroelec., and Freq. Contr., Vol: 58, No: 8 , published: 17 August 2011
Adaptive projection method applied to three-dimensional ultrasonic focusing and steering through the ribs
E. Cochard, J. F. Aubry, M. Tanter, C. Prada
J. Acoust. Soc. Amer., Vol: 130, No: 2 , published: 01 August 2011
Design for Underwater Aplanatic Straubel Acoustic Mirror
Yuji Sato, Koichi Mizutani, Naoto Wakatsuki, and Toshiaki Nakamura
Jpn. J. Appl. Phys., Part 1, Vol: 50, No: 7S , published: 26 July 2011
Effects of gas pockets on high-intensity focused ultrasound field
Hosseini S.H.R., Xinliang Zheng, Vaezy S.
IEEE Trans. Ultrason., Ferroelec., and Freq. Contr., Vol: 58, No: 6 , published: 28 June 2011
Verification of the westervelt equation for focused transducers
Yun Jing, Du Shen, Clement G.T.
IEEE Trans. Ultrason., Ferroelec., and Freq. Contr., Vol: 58, No: 5 , published: 07 May 2011
Analysis of High-Intensity Focused Ultrasound Source Using Time Reversal: Effect of Lamb-Like Waves
Yasuhiro Kaneshima, Shin Yoshizawa, and Shin-ichiro Umemura
Jpn. J. Appl. Phys., Vol: 50, No: 4R , published: 20 April 2011
Расщепление фокуса при прохождении фокусированного ультразвука сквозь грудную клетку
Хохлова В.А./Бобкова С.М./Гаврилов Л.Р.
Акуст. ж., Vol: 56, No: 5 , published: 21 December 2010
Improved synthetic aperture focusing technique by Hilbert-Huang transform for imaging defects inside a concrete structure
Jian-Hua Tong, Chin-Lung Chiu, Chung-Yue Wang
IEEE Trans. Ultrason., Ferroelec., and Freq. Contr., Vol: 57, No: 11 , published: 08 November 2010
Обращение времени в фокусирующих излучателях и приемниках ультразвука
Синельников Е.Д./Сутин А.М./Сарвазян А.П.
Акуст. ж., Vol: 56, No: 2 , published: 08 September 2010
Фокусировка вибрационного поля в упругих системах конечного размера методом обращения времени
Артельный П.В./Коротин П.И.
Акуст. ж., Vol: 56, No: 1 , published: 27 July 2010
A multiple-scan focusing method for radio frequency bulk acoustic wave device observation by laser probe system
Wu Nan/Hashimoto Ken-ya/Omori Tatsuya/Yamaguchi Masatsune
Jpn. J. Appl. Phys., Part 1, Vol: 49, No: 7S , published: 07 July 2010
Экспериментальное исследование акустических течений в сфокусированном ультразвуковом поле
Дерябин М.С./Касьянов Д.А./Родченков В.И./Сергеев Д.А.
Пpикл. мех. и техн.физ, Vol: 51, No: 5 , published: 03 May 2010
Эволюция мощных фокусирующих систем для применения в различных областях медицины (обзор)
Гаврилов Л.Р.
Акуст. ж., Vol: 56, No: 6 , published: 03 March 2010
Three-dimensional synthetic aperture focusing using a rocking convex array transducer
Andresen H./Nikolov S.I./Pedersen M.M./et al.
IEEE Trans. Ultrason., Ferroelec., and Freq. Contr., Vol: 57, No: 5 , published: 14 February 2010
Structure of phonon focusing patterns in tetragonal crystals
Litian Wang
J. Acoust. Soc. Amer., Vol: 127, No: 2 , published: 01 February 2010
A simple approximate formula for the physical focal length of spherically focused transducers
Huang J.H./Ding D.
IEEE Trans. Ultrason., Ferroelec., and Freq. Contr., Vol: 56, No: 12 , published: 12 December 2009
Hole distribution in phononic crystals: Design and optimization
V. Romero-García, J. V. Sánchez-Pérez, L. M. García-Raffi, J. M. Herrero, S. García-Nieto, and X. Blasco
J. Acoust. Soc. Amer., Vol: 125, No: 6 , published: 01 June 2009
Scattering effect on the sound focused personal audio system
Ji-Ho Chang, Jin-Young Park, and Yang-Hann Kim
J. Acoust. Soc. Amer., Vol: 125, No: 5 , published: 01 May 2009
The application of synthetic focusing for imaging crack-like defects in pipelines using guided waves
Davies J./Cawley P.
IEEE Trans. Ultrason., Ferroelec., and Freq. Contr., Vol: 56, No: 4 , published: 06 April 2009
Reduced harmonic representation for continuous wave, shock-producing focused beams
Christopher T.
IEEE Trans. Ultrason., Ferroelec., and Freq. Contr., Vol: 56, No: 4 , published: 06 April 2009
Modeling focused ultrasonic beams through liquid-solid interfaces: Applications to diffuse scattering. (A)
Joseph A. Turner and Goutam Ghoshal
J. Acoust. Soc. Amer., Vol: 125, No: 4 , published: 01 April 2009
Modeling weak shocks produced by high-intensity focused ultrasound. (A)
Vera A. Khokhlova, Olga V. Bessonova, Michael S. Canney, Michael R. Bailey, Joshua E. Soneson, and Lawrence A. Crum
J. Acoust. Soc. Amer., Vol: 125, No: 4 , published: 01 April 2009
Impact of temperature on bubbles excited by high intensity focused ultrasound. (A)
Wayne Kreider, Michael R. Bailey, Oleg A. Sapozhnikov, and Lawrence A. Crum
J. Acoust. Soc. Amer., Vol: 125, No: 4 , published: 01 April 2009
Propagation of sehar waves generated by a modulated finite amplitude radiation force in a viscoelastic medium
Giannoula A./Gobbold R.S.C.
IEEE Trans. Ultrason., Ferroelec., and Freq. Contr., Vol: 56, No: 3 , published: 01 April 2009
Numerical analysis of wave generation and propagation in a focused surface acoustic wave device for potential microfluidics applications
Sankaranarayanan S.K.R.S./Bhethanabotla V.R.
IEEE Trans. Ultrason., Ferroelec., and Freq. Contr., Vol: 56, No: 3 , published: 01 March 2009
Фокусировка мощных ультразвуковых пучков и предельные значения параметров разрывных волн
Бессонова О.В./Хохлова В.А./Бэйли М.Р./и др.
Акуст. ж., Vol: 55, No: 4-5 , published: 25 January 2009
Дифракционные эффекты при распространении фокусированного ультразвукового импульса в среде с тепловой неоднородностью
Бобкова С.М./Цысарь С.А./Хохлова В.А./Андреев В.Г.
Акуст. ж., Vol: 55, No: 4-5 , published: 25 January 2009
Сильно фокусирующие многоэлементные терапевтические излучатели для неинвазивной ультразвуковой абляции жировой ткани
Голанд В.Л./Кушкулей Л.М.
Акуст. ж., Vol: 55, No: 4-5 , published: 25 January 2009
Сравнительное исследование систем для динамического фокусирования ультразвука
Сарвазян А.П./Филлингер Л./Гаврилов Л.Р.
Акуст. ж., Vol: 55, No: 4-5 , published: 25 January 2009
Экспериментальное исследование формирования нелинейных акустических волн в сфокусированных пучках
Вьюгин П.Н.\Грязнова И.Ю.\Гурбатов С.Н.\и др.
Акуст. ж., Vol: 53, No: 2 , published: 12 May 2008
Biomolecular effects of low-intensity ultrasound: apoptosis, sonotranfection, and gene expression
Feril Loreto B.\Kondo Takashi\Tabuchi Yoshiaki\et al.
Jpn. J. Appl. Phys., Part 1, Vol: 46, No: 7В , published: 18 April 2008
Numerical analysis of ultrasonic beam of variable-line-focus-beam film transducer
Aoyagi Takahiro\Nakazawa Marie\Nakamura Kentaro\Ueha Sadayuki
Jpn. J. Appl. Phys., Part 1, Vol: 46, No: 7В , published: 18 April 2008
Возможность создания фокальных областей сложной конфигурации применительно к задачам раздражения рецепторных структур человека фокусированным ультразвуком
Гаврилов Л.Р.
Акуст. ж., Vol: 54, No: 2 , published: 02 March 2008
Об эффективности фокусировки звукового поля в океаническом волноводе в присутствии фоновых внутренних волн
Кузькин В.М.\Переселков С.А.
Акуст. ж., Vol: 52, No: 5 , published: 25 November 2007
"Сверхфокусировка" сферической волны. Теория и эксперимент
Гуреев М.Ю.\Миронов М.А.
Акуст. ж., Vol: 53, No: 6 , published: 02 November 2007
Синтез акустической линзы френеля для акустояркостной термометрии
Кротов Е.В.\Рейман А.М.\Субочев П.В.
Акуст. ж., Vol: 53, No: 6 , published: 02 November 2007
Применение фокусировки обращенного волнового поля для восстановления частотного спектра фоновых внутренних волн
Кузькин В.М.\Переселков С.А.
Акуст. ж., Vol: 53, No: 6 , published: 02 November 2007
Probing focused sound fileds using optical-beam deflection method
Yamaguchi Kouki\Choi Pak-Kon
Jpn. J. Appl. Phys., Part 1, Vol: 45, No: 5B , published: 13 September 2007
Структура фокальной области при фокусировке с обращением волны в неоднородной среде
Зверев В.А.
Акуст. ж., Vol: 51, No: 3 , published: 18 July 2007
Взрывоподобное вскипание вязкой жидкости в высокоинтенсивном фокусированном ультразвуковом пучке
Антонов С.Н.\Миргородский В.И.\Никируй Э.Я.
Акуст. ж., Vol: 52, No: 1 , published: 17 July 2007
Кавитация при сферической фокусировке акустических импульсов
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Акуст. ж., Vol: 52, No: 1 , published: 17 July 2007
Numerical calculation of the sound field focused by acoustic lens with an arbitrary axisymmetric sound speed
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IEEE Trans. Ultrason., Ferroelec., and Freq. Contr., Vol: 54, No: 4 , published: 14 April 2007
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The analysis of the focal region of focused ultrasonic transducers
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О применимости интеграла Рэлея к расчету поля вогнутого фокусирующего излучателя
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Акуст. ж., Vol: 45, No: 6 , 1999
Краевая волна при распространении импульса давления от фокусирующего источника
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A time-reversal mirror with variable range focusing
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Modeling of pulsed finite-amplitude focused sound beams in time domain
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J. Acoust. Soc. Amer., Vol: 104, No: 4 , 1998
Experiment on parametric focusing source
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Экспериментальное иследование процессов фокусировки субмикросекундных импульсов давления в жидкости
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Ж. техн. физ., Vol: 68, No: 6 , 1998
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Physica D, Vol: 94, No: 4 , 1996
Exact solutions for the kinematic model of autowaves in two-dimensional excitable media
Brazhnik P.K.
Physica D, Vol: 94, No: 4 , 1996
Фокусировка мощных акустических импульсов при различных углах раскрытия волнового фронта
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High-frequency ultrasound annular-array imaging. Part I. Array design and fabrication
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IEEE Trans. Ultrason., Ferroelec., and Freq. Contr., Vol: 53, No: 2
Annular phased-array high-intensity focused ultrasound device for image-guided therapy of uterine fibroids
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IEEE Trans. Ultrason., Ferroelec., and Freq. Contr., Vol: 53, No: 2
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IEEE Trans. Ultrason., Ferroelec., and Freq. Contr., Vol: 53, No: 3
Calibration of a focusing transducer and miniature hydrophone as well as acoustic power measurement based on free-field reciprocity in a spherically focused wave field
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IEEE Trans. Ultrason., Ferroelec., and Freq. Contr., Vol: 53, No: 3
Analysis and design of focused interdigital transducers
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Convergence of sound waves radiated from aerial ultrasonic source using square transverse vibrating plate with several reflective boards
Onishi Yuu, Miura Hikaru
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Analysis of acoustic fields from acoustic convex lens
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Акуст. ж., Vol: 50, No: 2
Сфеpическая фокусиpовка акустических импульсов в жидкости
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Акуст. ж., Vol: 50, No: 2
Analysis of flexural mode focusing by a semianalytical finite element method
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Sound focusing in rooms: he time-reversal approach
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Numerical simulation of shock wave focusing at fold caustics, with application to sonic boom
Marchiano Regis, Coulouvrat Francois, Grenon Richard
J. Acoust. Soc. Amer., Vol: 4, No: Pt 1
Theoretical analysis of the focusing of acoustic waves by two-dimensional sonic crystals
Gupta Bikash C., Ye Zhen
Phys. Rev. E: Stat. Nonlinear Soft Matter Phys., Vol: 67, No: 3
Двумерные фазированные решетки для применения в хирургии: многофокусная генерация и сканирование
Гаврилов Л.Р.
Акуст. ж., Vol: 49, No: 5
Адаптивная фокусиpовка с обpащением вpемени в анизотpопной упpугой сpеде
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Super-resolution in time-reversal acoustics
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Акуст. ж., Vol: 48, No: 6
Акустический импульс в волноводе без стенок
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Cunningham Kevin B., Hamilton Mark F.Brysev Andrew P., Krutyansky Leonid M.
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Fundamentals of focused field
Saito Shigemi
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О тепловых полях и тепловых дозах при ультразвуковой хирургии: модель гауссова сфокусированного пучка
Маков Ю.Н.
Акуст. ж., Vol: 47, No: 3
Фокусировка нелинейной ультразвуковой волны с обращенным фронтом, прошедшей через фазово-неоднородный слой
Брысев А.П., Бункин Ф.В., Клопотов Р.В. и др.
Письма в ЖЭТФ, Vol: 73, No: 7-8
Focal translation by frequency shift in free space
Song H.C., Roux P., Kuperman W.A.
IEEE Trans. Ultrason., Ferroelec., and Freq. Contr., Vol: 47, No: 3
Production of 20-MHz focusing Gaussian source 20 MHz
Sakurada T., Saito S.
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Ultrasonic self-focusing on the edge of a surface-breaking crack: Experiment and modeling
Zhang M., Achenbach J.D., Cheng A.
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Influence of the insertion of a solid plate on the second harmonic component of a focused beam
Saito Sh.
Jpn. J. Appl. Phys., Part 1, Vol: 39, No: 5B
Detection of inclusion in molten metal by focused ultrasonic wave
Ihara I., Jen Ch.-K.
Jpn. J. Appl. Phys., Part 1, Vol: 39, No: 5B
Sawtooth pulse driving of the plano-concave transducer with boradband and focusing-Frequency dependence of focal distance-
Tai H., Kobayshi T.
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Дифракционная фокусировка акустического поля в подводном звуковом канале
Абросимов Д.И., Петухов Ю.В.
Акуст. ж., Vol: 46, No: 2
Negative role of paraxial sound rays in lithotripsy
Urosovskii I.A.
Акуст. ж., Vol: 46, No: 3
Улучшение качества фокусировки при параметрическом обращении фронта ультразвуковых пучков в ферритовом цилиндре с рельефной рабочей поверхностью
Брысев А.П., Крутянский Л.М.
Акуст. ж., Vol: 46, No: 4
Двумерные фазированные ультразвуковые решетки для применения в хирургии: перемещение одиночного фокуса
Гаврилов Л.Р., Хэнд Дж.У.
Акуст. ж., Vol: 46, No: 4
Фокусирующие излучатели ультразвука с электрически управляемой пространственно-временной структурой создаваемых полей
Гладилин А.В., Догадов А.А.
Акуст. ж., Vol: 46, No: 4
Тепловые явления при фокусировке мощного ультразвукового пучка в двухслойной среде типа вода - биологическая ткань
Хохлова В.А., Филоненко Е.А.
Изв. РАН. Сер. физ., Vol: 64, No: 12
Focusing and steering through absorbing and aberrating layers: Application to ultrasonic propagation through the skull
Tanter Mickael, Thomas Jean-Louis, Fink Mathias
J. Acoust. Soc. Amer., Vol: 5, No: Pt 1
Line-focusing of ultrasonic SV wave by electromagentic acoustic transducer
Ogi Hirotsugu, Hirao Masahiko, Ohtani Toshihiro
J. Acoust. Soc. Amer., Vol: 5, No: Pt 1