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Experimental Study of Simultaneous Transmission of Ultrasonic Waves and Optical Radiation via Optical Fiber Couplers

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EN
Abstrakty
EN
This article presents the results of experimental studies of simultaneous transmission of ultrasonic waves and laser signals in optical fibers by the use of both the optical single mode and multimode fiber couplers. This work was aimed, among other things, at the study of the way the acoustic energy affects a laser beam. The light wave was guided into one of the coupler’s arms. The optical power applied to one input of the coupler is separated into two coupler outputs according to the rate determined by the coupling coefficient. Only an ultrasonic wave generated by a sandwich type transducer is applied to the other arm of the coupler. In this experiment, as in case of the light wave, the acoustic power is separated into both the outputs. One can observe the interaction of both the waves on the two outputs – a modulation of the light wave by means of the ultrasonic wave is possible. The output signal was detected using a PIN diode and an optical power meter (OPM). Temporary courses were observed on an oscilloscope screen. The simultaneous transmission of ultrasounds and optical radiation in optical fibers can be used in the construction of medical equipmen.
Rocznik
Strony
111--122
Opis fizyczny
Bibliogr. 14 poz., wykr.
Twórcy
autor
autor
  • Wrocław University of Technology Institute of Telecommunications, Teleinformatics and Acoustics Wybrzeze Wyspianskiego 27, 50-370 Wrocław, Poland, sylwia.muc@pwr.wroc.pl
Bibliografia
  • 1. Bansevicius R., Bubulis A., Jurenas V., Vyšniauskiene˙ Ž. (2005), Investigation of ultrasonic probe for medical purposes, Ultragarsas, 55, 2, 44-46.
  • 2. Fan M.-H., Chang A.E. (2002), Resection of liver tumors: technical aspects, Surgical Oncology, 10, 139-152.
  • 3. Gudra T., Muc S. (2007), A preliminary analysis of possibilities of compensating faults of laser and ultrasonic technologies is surgery, Archives of Acoustics, 32, 4 (Supplement), 117-122.
  • 4. Jen C.K. (1985), Similarities and differences between fiber acoustics and fiber optics, IEEE Ultrasonics Symposium, pp. 1128-1133.
  • 5. Jen C.K. (1987), Acoustic fibers, IEEE Ultrasonics Symposium, pp. 443-454.
  • 6. Jen C.K., Safaai-Jazi A., Farnell G.W. (1986), Analysis and measurements of fiber acoustic waveguides, IEEE Ultrasonics Symposium, pp. 1113-1117.
  • 7. Matthews A.L., Murphy K.A., Rogers R.E., Claus R.O. (1987), Acoustic Fiber Waveguide Coupler, IEEE Ultrasonics Symposium, pp. 629-631.
  • 8. Muc S. (2008), Experimental study of transmission of ultrasonic wave in optical fibers, Archives of Acoustics, 33, 4, 413-419.
  • 9. Muc S. (2009), Transmission of Ultrasonic Waves in Optical Fibers with the use of Sandwich Type Transducer, Archives of Acoustics, 34, 4, 735-745.
  • 10. Muc S., Gudra T., Beres-Pawlik E. (2009), Experimental Study of Simultaneous Transmission of a Light Wave and Ultrasonic Wave in an Optical Fiber with the use of Mach-Zehnder Interferometer, Archives of Acoustics, 34, 4, 697-714.
  • 11. Nghambia Mbamou D., Helfmann J., Müller G., Brunk G., Stein T., Designer K. (2001), A theoretical study on the combined application on fibers for optical and acoustic waveguides, Meas. Sci. Technol., 12, 10, 1631-1640.
  • 12. Safaai-Jazi A. (2007), Ultrasound fiber guides and sensor applications, Proc. of SPIE, 6758, 675804-1-675804-8.
  • 13. Safaai-Jazi A., Jen C.K., Farnell G.W. (1986), Analysis of weakly guiding fiber acoustic waveguide, IEEE Trans. Ultrason. Ferroelectr. Freq. Control., 33, 1.
  • 14. Safaai-Jazi A., Claus R.O. (1988), Acoustic modes in optical fiberlike waveguides, IEEE Trans. Ultrason. Ferroelectr. Freq. Control., 35, 5.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BUS8-0019-0047
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