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[111]-oriented PIN-PMN-PT crystals with ultrahigh dielectric permittivity and high frequency constant for high-frequency transducer applications

Journal Article


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Abstract


  • The electromechanical properties of [111]-oriented tetragonal Pb(In1/2Nb1/2O3)-Pb(Mg1/3Nb2/3O3)-PbTiO3 (PIN-PMN-PT) crystals were investigated for potential high frequency ultrasonic transducers. The domain-engineered tetragonal crystals exhibit an ultrahigh free dielectric permittivity ε33 T > 10 000 with a moderate electromechanical coupling factor k33 ∼ 0.79, leading to a high clamped dielectric permittivity ε33 S of 2800, significantly higher than those of the rhombohedral relaxor-PT crystals and high-K (dielectric permittivity) piezoelectric ceramics. Of particular significance is that the [111]-oriented tetragonal crystals were found to possess high elastic stiffness, with frequency constant N33 of ∼2400 Hz m, allowing relatively easy fabrication of high-frequency transducers. In addition, no scaling effect of piezoelectric and dielectric properties was observed down to thickness of 0.1 mm, corresponding to an operational frequency of ∼24 MHz. These advantages of [111]-oriented tetragonal PIN-PMN-PT crystals will benefit high-frequency ultrasonic array transducers, allowing for high sensitivity, broad bandwidth, and reduced noise/crosstalk.

UOW Authors


  •   Li, Fei (external author)
  •   Zhang, Shujun
  •   Luo, Jun (external author)
  •   Geng, Xuecang (external author)
  •   Xu, Zhuo (external author)
  •   Shrout, Thomas R. (external author)

Publication Date


  • 2016

Citation


  • Li, F., Zhang, S., Luo, J., Geng, X., Xu, Z. & Shrout, T. R. (2016). [111]-oriented PIN-PMN-PT crystals with ultrahigh dielectric permittivity and high frequency constant for high-frequency transducer applications. Journal of Applied Physics, 120 (7), 074105-1-074105-5.

Scopus Eid


  • 2-s2.0-85026538890

Ro Full-text Url


  • http://ro.uow.edu.au/cgi/viewcontent.cgi?article=3242&context=aiimpapers

Ro Metadata Url


  • http://ro.uow.edu.au/aiimpapers/2221

Start Page


  • 074105-1

End Page


  • 074105-5

Volume


  • 120

Issue


  • 7

Place Of Publication


  • United States

Abstract


  • The electromechanical properties of [111]-oriented tetragonal Pb(In1/2Nb1/2O3)-Pb(Mg1/3Nb2/3O3)-PbTiO3 (PIN-PMN-PT) crystals were investigated for potential high frequency ultrasonic transducers. The domain-engineered tetragonal crystals exhibit an ultrahigh free dielectric permittivity ε33 T > 10 000 with a moderate electromechanical coupling factor k33 ∼ 0.79, leading to a high clamped dielectric permittivity ε33 S of 2800, significantly higher than those of the rhombohedral relaxor-PT crystals and high-K (dielectric permittivity) piezoelectric ceramics. Of particular significance is that the [111]-oriented tetragonal crystals were found to possess high elastic stiffness, with frequency constant N33 of ∼2400 Hz m, allowing relatively easy fabrication of high-frequency transducers. In addition, no scaling effect of piezoelectric and dielectric properties was observed down to thickness of 0.1 mm, corresponding to an operational frequency of ∼24 MHz. These advantages of [111]-oriented tetragonal PIN-PMN-PT crystals will benefit high-frequency ultrasonic array transducers, allowing for high sensitivity, broad bandwidth, and reduced noise/crosstalk.

UOW Authors


  •   Li, Fei (external author)
  •   Zhang, Shujun
  •   Luo, Jun (external author)
  •   Geng, Xuecang (external author)
  •   Xu, Zhuo (external author)
  •   Shrout, Thomas R. (external author)

Publication Date


  • 2016

Citation


  • Li, F., Zhang, S., Luo, J., Geng, X., Xu, Z. & Shrout, T. R. (2016). [111]-oriented PIN-PMN-PT crystals with ultrahigh dielectric permittivity and high frequency constant for high-frequency transducer applications. Journal of Applied Physics, 120 (7), 074105-1-074105-5.

Scopus Eid


  • 2-s2.0-85026538890

Ro Full-text Url


  • http://ro.uow.edu.au/cgi/viewcontent.cgi?article=3242&context=aiimpapers

Ro Metadata Url


  • http://ro.uow.edu.au/aiimpapers/2221

Start Page


  • 074105-1

End Page


  • 074105-5

Volume


  • 120

Issue


  • 7

Place Of Publication


  • United States