Recent Publications

1. I. E. Kuznetsova, B. D. Zaitsev, A. A. Teplykh, S. G. Joshi, and A. S. Kuznetsova, “The power flow angle of acoustic waves in thin piezoelectric plates,” IEEE Trans. Ultrason., Ferroelec., Freq. Control, vol. 55, pp. 1984 – 1991, Sept. 2008.                                                                                                                                                                                                                                           

2. G. Vohra, S. G. Joshi, B. D. Zaitsev, I. E. Kuznetsova, and A. A. Teplykh, “High frequency plate acoustic wave devices,” Proc. International Congress on Ultrasonics - ICU 2007, Vienna (Austria), April 2007, Paper ID 1628, doi: 10.3728. 

3. I. E. Kuznetsova, B. D. Zaitsev, S. G. Joshi, and A. A. Teplykh, “Effect of a liquid on the characteristics of antisymmetric Lamb waves in thin piezoelectric plates,” Acoustical Physics, vol. 53, pp. 557 – 563, 2007.

4. S. G. Joshi, B. D. Zaitsev, I. E. Kuznetsova, A. A. Teplykh, and A. Pasachhe, “Characteristics of fundamental acoustic wave modes in thin piezoelectric plates,” Ultrasonics, vol. 44, pp. e787 – e791, Dec. 2006.

5. B. D. Zaitsev, I. E. Kuznetsova, S. G. Joshi, and A. S. Kuznetsova, “New method of change in temperature coefficient delay of acoustic waves in thin piezoelectric plates,” IEEE Trans. Ultrason., Ferroelec, Freq. Control, vol. 53, pp. 2113 – 2120, Nov. 2006.

6. I. E. Kuznetsova, B. D. Zaitsev, S. G. Joshi, and A. S. Kuznetsova, “Gravimetric sensitivity of acoustic waves in thin piezoelectric plates in the presence of liquids,” Tech. Phys. Letters, vol. 32, no. 8, pp. 729 - 731, 2006.

7. S. G. Joshi, B. D. Zaitsev, I. E. Kuznetsova, and A. S. Kuznetsova, “Gravimetric sensitivity of acoustic waves in piezoelectric plates,” Journal of Communications Technology and Electronics, vol. 50, no. 6, pp. 647 - 650, 2005.

8. B. D. Zaitsev, I. A. Borodina, I. E. Kuznetsova, and S. G. Joshi, “Transmission of surface acoustic waves through the interface based on discontinuity of electrical boundary conditions on surface of potassium niobate,” Ultrasonics, vol. 42, pp. 373 – 376, 2004.

9. I. E. Kuznetsova, B. D. Zaitsev, I. A. Borodina, A. A. Teplyh, V. V. Shurygin, and S. G. Joshi, “Investigation of acoustic waves of higher order propagating in plates of lithium niobate,” Ultrasonics, vol. 42, pp. 179 – 182, 2004.

10. V. E. Sakharov, S. A. Kuznetsov, B. D. Zaitsev, I. E. Kuznetsova, and S. G. Joshi , “Liquid level sensor using ultrasonic Lamb waves,” Ultrasonics, vol. 41, pp. 319 – 322, 2003.

11. S.G. Joshi, B.D. Zaitsev, and I.E. Kuznetsova, “Reflection of plate acoustic waves produced by a periodic array of mechanical load strips or grooves,” IEEE Trans. on Ultras., Ferroel. and Freq. Control, vol. 49, pp. 1730-1734, Dec. 2002.

12. I. A. Borodina, I.E. Kuznetsova, B.D. Zaitsev, and S.G. Joshi, “The effect of illumination on the characteristics of acoustic waves in a piezoelectric plate – photoconducting layer structure”, Tech. Phys. Letters, vol. 28, no. 1, pp. 10-12, 2002.

13. S.G. Joshi, B.D. Zaitsev, and I.E. Kuznetsova, “Reflection of normal acoustic waves in thin plates from  a grating with a periodically distributed mechanical load”, Acoustical Physics, vol. 48, no. 2, pp. 191-195, 2002.

14. I.E. Kuznetsova, B.D. Zaitsev, and S.G. Joshi, “Temperature characteristics of acoustic waves propagating in thin piezoelectric plates,” Proc. of IEEE Ultras. Symp., vol. 1, pp. 157-159, 2001.

© 2009 Nagaraj Ghatadi Suraji - Last update: February 13, 2009