Application of focused ultrasound for the stimulation of neural structures LR Gavrilov, EM Tsirulnikov, II Davies Ultrasound in medicine & biology 22 (2), 179-192, 1996 | 219 | 1996 |
A theoretical assessment of the relative performance of spherical phased arrays for ultrasound surgery LR Gavrilov, JW Hand ieee transactions on ultrasonics, ferroelectrics, and frequency control 47 …, 2000 | 210 | 2000 |
A random phased array device for delivery of high intensity focused ultrasound JW Hand, A Shaw, N Sadhoo, S Rajagopal, RJ Dickinson, LR Gavrilov Physics in Medicine & Biology 54 (19), 5675, 2009 | 147 | 2009 |
Focusing of high-intensity ultrasound through the rib cage using a therapeutic random phased array S Bobkova, L Gavrilov, V Khokhlova, A Shaw, J Hand Ultrasound in medicine & biology 36 (6), 888-906, 2010 | 134 | 2010 |
A study of reception with the use of focused ultrasound. I. Effects on the skin and deep receptor structures in man LR Gavrilov, GV Gersuni, OB Ilyinski, EM Tsirulnikov, EE Shchekanov Brain research 135 (2), 265-277, 1977 | 111 | 1977 |
Use of focused ultrasound for stimulation of nerve structures LR Gavrilov Ultrasonics 22 (3), 132-138, 1984 | 102 | 1984 |
Ultrasonic hydrophone based on short in-fiber Bragg gratings NE Fisher, DJ Webb, CN Pannell, DA Jackson, LR Gavrilov, JW Hand, ... Applied optics 37 (34), 8120-8128, 1998 | 100 | 1998 |
The possibility of generating focal regions of complex configurations in application to the problems of stimulation of human receptor structures by focused ultrasound LR Gavrilov Acoustical Physics 54, 269-278, 2008 | 97 | 2008 |
The Effect of Focused Ultrasound on the Skin and Deep Nerve Structures of Man and Animal MG Gavrilov L. R., Gersuni G. V., Ilyinski O. B., SIROTYUK, ... Progress in Brain Research" 43, 272-292, 1976 | 86* | 1976 |
Miniature fiber optic ultrasonic probe DJ Webb, J Surowiec, M Sweeney, DA Jackson, LR Gavrilov, JW Hand, ... Fiber Optic and Laser Sensors XIV 2839, 76-80, 1996 | 77 | 1996 |
Фокусированный ультразвук высокой интенсивности в медицине ЛР Гаврилов Известия Южного федерального университета. Технические науки, 208-217, 2013 | 66 | 2013 |
In-fibre Bragg gratings for ultrasonic medical applications NE Fisher, J Surowiec, DJ Webb, DA Jackson, LR Gavrilov, JW Hand, ... Measurement science and technology 8 (10), 1050, 1997 | 57 | 1997 |
Focused ultrasound as a tool to input sensory information to humans LR Gavrilov, EM Tsirulnikov Acoustical Physics 58, 1-21, 2012 | 56 | 2012 |
Use of amplitude-modulated focused ultrasound for diagnosis of hearing disorders EM Tsirulnikov, IA Vartanyan, GV Gersuni, AS Rosenblyum, VI Pudov, ... Ultrasound in medicine & biology 14 (4), 277-285, 1988 | 56 | 1988 |
A method of reducing grating lobes associated with an ultrasound linear phased array intended for transrectal thermotherapy LR Gavrilov, JW Hand, P Abel, CA Cain IEEE transactions on ultrasonics, ferroelectrics, and frequency control 44 …, 1997 | 54 | 1997 |
A study of reception with the use of focused ultrasound. II. Effects on the animal receptor structures LR Gavrilov, GV Gersuni, OB Ilyinsky, EM Tsirulnikov, EE Shchekanov Brain research 135 (2), 279-285, 1977 | 52 | 1977 |
The role of acoustic nonlinearity in tissue heating behind a rib cage using a high-intensity focused ultrasound phased array PV Yuldashev, SM Shmeleva, SA Ilyin, OA Sapozhnikov, LR Gavrilov, ... Physics in Medicine & Biology 58 (8), 2537, 2013 | 51 | 2013 |
Ultrasonic field and temperature sensor based on short in-fibre Bragg gratings NE Fisher, DJ Webb, CN Pannell, DA Jackson, LR Gavrilov, JW Hand, ... Electronics letters 34 (11), 1139-1140, 1998 | 46 | 1998 |
Method for designing multi-element fully populated random phased arrays for ultrasound surgery applications. VK P. Rosnitskiy, B. Vysokanov, O. Sapozhnikov, L. Gavrilov IEEE Trans. Ultrason. Ferroelec. Freq. Contr., 2018, V. 65. 4. 65 (4), 630-637, 2018 | 38* | 2018 |
Method for designing multi-element fully populated random phased arrays for ultrasound surgery applications. VK P. Rosnitskiy, B. Vysokanov, O. Sapozhnikov, L. Gavrilov IEEE Trans. Ultrason. Ferroelec. Freq. Contr. 65 (4), 630-637, 2018 | 38 | 2018 |