Refereed Journal Articles

  1. R. O. Cleveland, M. F. Hamilton, and D. T. Blackstock, "Time domain modeling of finite-amplitude sound in relaxing fluids," J. Acoust. Soc. Am. 99, 3312—3318 (1996).
  2. R. O. Cleveland, J. P. Chambers, R. Raspet, H. E. Bass, M. F. Hamilton, and D. T. Blackstock, "Comparison of computer codes for the propagation of sonic boom waveforms through isothermal atmospheres," J. Acoust. Soc. Am. 100, 3017—3027 (1996).
  3. R. O. Cleveland, J. A. McAteer, S. P. Andreoli and L. A. Crum, “Effect of polypropylene vials on shock waves,” Ultrasound Med. Biol. 23: 939—952 (1997).
  4. R. O. Cleveland, D. A. Lifshitz, B. A. Connors, A. P. Evan, L. R. Willis and L. A. Crum, “In vivo pressure measurement of lithotripsy shock waves,” Ultrasound Med Biol 24:293—306 (1998).
  5. T. J. Matula, I. M. Hallaj, R. O. Cleveland, L. A. Crum, W. C. Moss, and R. A. Roy, “The acoustic emissions from single-bubble sonoluminescence,” J Acoust Soc Am. 103:1377—1382 (1998).
  6. M. R. Bailey, D. T. Blackstock, R. O. Cleveland, and L. A. Crum, “Comparison of electrohydraulic lithotripters with rigid and pressure-release ellipsoidal reflectors: I. Acoustic fields” J. Acoust. Soc. Am. 104, 2517—2524 (1998).
  7. M. A. Stonehill, J. C. Williams, Jr., M. R. Bailey, D. Lounsbery, R. O. Cleveland, L. A. Crum, A. P. Evan and J. A. McAteer, “An acoustically matched high pressure chamber for control of cavitation in shock wave lithotripsy: mechanisms of shock wave damage in vitro,” Methods in Cell Science , 19:303—310 (1998).
  8. V. G. Andreev, R. O. Cleveland, Y. A. Pischal'nikov, O. A. Sapozhnikov, and V. A. Khokhlova, "Diagnostics of a relaxing medium by an acoustic pulse with shock front,” Acoust. Phys. 45: 8—13 (1999). Translated from Akust. Zh. 45: 13—19 (1999).
  9. I.M. Hallaj and R. O. Cleveland, “Single pulse simulation of the pressure and temperature fields in thermoviscous fluids using the FDTD method,” Acoust. Res Lett. Online http://ojps.aip.org/arlo also published in J. Acoust. Soc. Am 105: L7—12 (1999)
  10. Williams, J.C., M.A. Stonehill, K. Colmenares, A.P. Evan, S.P. Andreoli, R.O. Cleveland, M.R. Bailey, L.A. Crum and J.A. McAteer. Effect of macroscopic air bubbles on cell lysis by shock wave lithotripsy in vitro. Ultrasound Med Biol, 25: 473—479, (1999).
  11. M.A. Averkiou and R. O. Cleveland, “Modeling of an electrohydraulic lithotripter with the KZK equation,” J. Acoust. Soc. Am. 106: 102—112 (1999).
  12. S. L. Poliachik, W. L. Chandler, P. D. Mourad, M. R. Bailey, S. Bloch, R. O. Cleveland, P. Kaczkowski, G. Keilman, T. Porter and L. A. Crum, “Effect of high-intensity focused ultrasound on whole blood with and without microbubble contrast agent,” Ultrasound Med Biol. 25:991—998, (1999).
  13. M. R. Bailey, D. T. Blackstock, R. O. Cleveland and L. A. Crum, “Comparison of electrohydraulic lithotripters with rigid and pressure-release ellipsoidal reflectors: II. Cavitation fields” J. Acoust. Soc. Am. 106: 1149—1160 (1999)
  14. P. H. F. Nicholson, R. Strelitzki, R. O. Cleveland and M. L. Bouxsein “Scattering of ultrasound in cancellous bone: fundamental concepts and predictions from a theoretical model,” J. Biomechanics, 33: 503—506 (L) (2000)
  15. R. O. Cleveland, O. A. Sapozhnikov, M. R. Bailey and L. A. Crum, “A dual passive cavitation detector for localised detection of lithotripsy-induced cavitation in vitro,” J. Acoust. Soc. Am. 107: 1745—1758 (2000).
  16. R. O. Cleveland, M. R. Bailey, N. Fineberg, B. Hartenbaum, M. Lokhandwalla, J. A. McAteer and B. Sturtevant, “Design and characterisation of a research electrohydraulic lithotripter patterned after the Dornier HM3,” Rev. Sci.Instr., 71: 2514-2525 (2000)
  17. F. P. Curra, P. D. Mourad, V. A. Khokhlova, R. O. Cleveland, and L. A. Crum, “Numerical simulations of heating patterns and tissue temperature response due to high intensity focused ultrasound” IEEE-UFFC 47: 1077-1089 (2000)
  18. I.M. Hallaj, R. O. Cleveland, P. Barbone, S.G. Kargl and R. A. Roy, “Amplitude degradation of time-reversed pulses in nonlinear absorbing thermoviscous fluids,” Ultrasonics 38: 885-889 (2000)
  19. I.M. Hallaj, R. O. Cleveland, K. Hynynen, “Simulations of the thermo-acoustic lens effect during focused ultrasound surgery,” J. Acoust. Soc. Am 109: 2245-2253 (2001).
  20. R. O. Cleveland, R.A. Müller, J.A McAteer, Time-lapse non-destructive assessment of shock wave damage to kidney stones using micro-computed tomography," J. Acoust. Soc. Am. 110:1733-1736 (2001)
  21. A.D. Pierce, R O. Cleveland, M Zampolli, “Radiation impedance matrices for rectangular interfaces within rigid baffles: calculation methodology and applications,” J. Acoust. Soc. Am. 111: 672-684 (2002)
  22. O. A. Sapozhnikov, V. A. Khokhlova, M. R. Bailey, J. C. Williams, Jr., J. A. McAteer, R. O. Cleveland, L. A. Crum, “Effect of overpressure and pulse repetition frequency on cavitation in shock wave lithotripsy," J. Acoust. Soc. Am 112: 1183-1195 (2002)
  23. Yu A. Pishchalnikov, O. A. Sapozhnikov, M. R. Bailey, J. C. Williams, Jr., R. O. Cleveland, T. Colonius, L. A. Crum, A. P. Evan, J. A. McAteer, “Cavitation Bubble Cluster Activity in the Breakage of Kidney Stones by Lithotripter Shock Waves,” J. Endourology 17:435-446 (2003)
  24. R. O. Cleveland, A.L. Cohen, R.A. Roy, H. Singh, T.L. Szabo, “Imaging Coral II: Advances in Imaging of Coral Skeletons Using Ultrasound," Subsurface Sensing Technologies and Applications 5:43—61 (2004)
  25. R. O. Cleveland and J.S. Tello, “Effect of the diameter and the sound speed of a kidney stone on the acoustic field induced by shock waves," Acoust. Res. Letters Online 5 :37--43 (2004).
  26. E.T. Sylven, S. Agarwal, R. O. Cleveland, and C.L. Briant, “High Strain Rate Testing of Kidney Stones,” Journal of Materials Science: Materials in Medicine 15: 613—617 (2004)
  27. T.L. Szabo, B.U. Karbeyaz, R.O. Cleveland,, and E.L. Miller “Determining the pulse-echo electromechanical characteristic of a transducer using flat-plates and point targets,” J. Acoust. Soc. Am. 116: 90-96 (2004)
  28. R. O. Cleveland, R Anglade, R.K. Babayan, “Effect of stone motion on in vitro comminution efficiency of a Storz Modulith SLX,” J. Endourology 18: 629-633 (2004).
  29. J. Huang, R. G. Holt, R. O. Cleveland, and R. A. Roy “Experimental Validation of a Tractable Numerical Model for HIFU-Induced Heating in Flow-Through Tissue Phantoms” J. Acoust. Soc. Am. 116: 2451-2458 (2004)
  30. X. Yang and R. O. Cleveland, “Time domain solution of the KZK equation for rectangular pistons with application to harmonic imaging," J. Acoust. Soc. Am. 117: 113-123 (2005)
  31. M. R. Bailey, Y.A. Pishchalnikov, O. A. Sapozhnikov, R. O. Cleveland, J. A. McAteer, N. A. Miller, I. V. Pishchalnikova, B. A. Connors, L. A. Crum, and A. P. Evan, “Cavitation detection during shock wave lithotripsy,” Ultrasound Med. Biol. 31: 1245-1256 (2005)
  32. R.O. Cleveland and O.A. Sapozhnikov, "Modeling elastic wave propagation in kidney stones with application to shock wave lithotripsy," J. Acoust. Soc. Am. 118: 2667-2676 (2005).
  33. J. A. McAteer, M. R. Bailey, J. C. Williams, Jr., R. O. Cleveland, and A. P. Evan, “Strategies for Improved Shock Wave Lithotripsy” Minerva Urologica E Nefrologica 57:271-288 (2005).
  34. J A. McAteer, J.C. Williams, Jr., R.O. Cleveland, J. Van Cauwelaert, M.R. Bailey, D.A. Lifshitz, A.P. Evan, “Ultracal-30 Gypsum Artificial Stones for Lithotripsy Research,” Urological Research 33:429-434 (2005).
  35. G Haïat, F. Padilla, R.O. Cleveland, P. Laugier, “Effects of frequency-dependent attenuation and velocity dispersion on in vitro ultrasound velocity measurements in intact human femur specimens,” in press IEEE Trans. on UFFC (2005).
  36. A. Y. Ammi, R. O. Cleveland, J. Mamou, G. I. Wang, S. L. Bridal, W. D. O’Brien, Jr, “Ultrasonic contrast agent shell rupture detected by inertial cavitation and rebound signals,” IEEE Trans. on UFFC 53:126-136 (2006).
  37. K. Raum, R.O. Cleveland, F. Peyrin, P. Laugier, “Spatially resolved elastic stiffness mapping in bone - Part II: derivation of elastic stiffness from mineral density and acoustic impedance,” Phys. Med. Biol. 51:747-758 (2006).
  38. P. V. Chitnis and R. O. Cleveland, “Quantitative measurements of acoustic emissions from cavitation at the surface of a stone in response to a lithotripter shock wave,” J. Acoust Soc. Am. 119:1929-1932 (2006).
  39. J. Huang, P. Dupont, A. Undurti, J. Triedman, R.O. Cleveland, “Producing Diffuse Ultrasound Reflections from Medical Instruments Using a Quadratic Residue Diffuser,” Ultrasound in Medicine and Biology 32:721-727 (2006).
  40. M.V. Averiyanov, V.A. Khokhlova, O.A. Sapozhnikov, Ph. Blanc-Benon, R. O. Cleveland, “Nonlinear Parabolic Equation For The Description Of Nonlinear Acoustic Wave Propagation In Inhomogeneous Moving Media,” Acoust. Physics 52(6) 623–63 (2006).
  41. B. Ulker Karbeyaz, E.L. Miller, R.O. Cleveland, “Fast Computation of Acoustic Field of a Segment of Cylindrically Concave Transducer,” J. Acoust Soc. Am. 121:1226-1237 (2007).
  42. R.O. Cleveland, P.V. Chitnis, S.R. McClure, “Acoustic Field of a Ballistic Shock Wave Therapy Device,” Ultrasound Med. and Biol. 33:1327-1335 (2007).
My CV lists other publications.