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Nonlinear and linear pressure determination in a two-layer structure: solid crystal - water at GHz frequencies

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Determination of acoustic pressures at the frequency of 1 GHz by means of PVDF hydrophones is not possible due to their limited frequency response. Moreover, the size of their active electrodes is by about 3 orders of magnitude greater than the resolution in the acoustic microscopes at such a high frequency. Therefore the authors solved this problem at first in a microscope with the working frequency of 34 MHz using both the numerical and experimental methods. A numerical procedure of nonlinear propagation and transducer power measurements were applied giving in effect the same quantitative results. Therefore the identical numerical procedure was used for the l GHz microscope working in the reflection mode. Many pressure field quantities of the microscope were shown, e.g. the pressure values, distributions of the first, second, third and fourth pressure harmonics in and outside of the focus, pulse distortions and their spectra, the resolutions achieved etc. The obtained information on nonlinear propagation effects in microscopy was previously lacking.
Czasopismo
Rocznik
Tom
Strony
143--150
Opis fizyczny
Bibliogr. 15 poz., rys.
Twórcy
  • Institute of Fundamental Technological Research, Polish Academy of Sciences, Warsaw, Poland
autor
  • Institute of Fundamental Technological Research, Polish Academy of Sciences, Warsaw, Poland
autor
  • Institute of Fundamental Technological Research, Polish Academy of Sciences, Warsaw, Poland
Bibliografia
  • 1. J. Bereiter-Hahn, Probing biological cells and tissues with acoustic microscopy, Chapter 3,Advances in acoustic microscopy. New York: Plenum Press, 1995.
  • 2. A. Briggs, Acoustic microscopy, Oxford, Clarendon Press, pp.30, 103,151,303,1992.
  • 3. L. Filipczyński, T. Kujawska, R. Tymkiewicz, 1. Wójcik, Nonlinear and linear propagation ofdiagnostic ultrasound pulses, Ultrasound in Med.& Biol., 25, 285-299, 1999.
  • 4. J. Foster, D. Rugar, Low temperature acoustic microscopy, IEEE Trans. SU, 32,139-51,1985.
  • 5. Graham R., Determination ofthird and fourth order longitudinal elastic constants by shockcompression techniques. Application to sapphire and fused quartz, 1. Acoust. Soc. Am., 51,1576-1581,1972.
  • 6. S. Kostek, B. Sinhua, Third order elastic constants for an inviscid fluid, 1. Acoust. Soc. Am.,94,3014-3017,1993.
  • 7. J. H. Krautkrammer, Ultrasonic testing of materials, Springer, Berlin 1990.
  • 8. P. Lewin, Test methodology and hydrophone calibration report, Sonie Consulting, Inc.Wyndmoor, PA 1-6, 2002.
  • 9. J. Litniewski, 1. Bereiter-Hahn, Measurements of celIs in culture by scanning acousticmicroscopy, Journ. Microscopy, 158, 95-107, 1990.
  • 10. T. Muir, E. Carstensen, Prediction ofnonlinear acoustic effects at biomedical frequenciesand intensities, Ultrasound in Med.& Biol., 6, 345-357, 1980.
  • 11. J. Tjotta, S. Tjotta, E. Vefring, Effects offocusing on the nonIinear interaction betweentwo collinear finite amplitude sound beams, 1. Acoust. Soc. Am., 89, 1017-1027, 1991.
  • 12. J Wójcik, Conservation of energy and absorption in acoustic fields for linear and nonlinearpropagation,1. Acoust. Soc. Am., 104,2654-2663,1998.
  • 13. J. Wójcik, A new theoretical basis for numerical simulations ofnonlinear acoustic fields.In: Proceedings ofthe 15th International Symposium on Nonlinear Acoustics, Goettingen 1999, ed. American Society ofPhysics, 524,141-144,2000.
  • 14. J. Wójcik, 1. Litniewski, L. Filipczyński, Numerical and experimental determination ofhigh nonlinearities in ultrasonic microscopy, Proc.l7 Intern. Congress of Acoustics, Rome,paper 7B.02.02, 1-2,2001.
  • 15. J. Wójcik, 1. Litniewski, L. Filipczyński, T. Kujawska, Nonlinear effects and possible temperature increases in ultrasonic microscopy, Archives of Acoustics, 27,191-201,2002.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-f341b845-5cac-4181-8f42-efe0d43c7d6b
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