Determination of the elastic and photoelastic constants of quartz-typeGaPO4by Brillouin scattering

“…[7] and were, respectively, equal to 1.6147 and 1.6332. The position (in GHz), amplitude and width of the measured modes (the Brillouin lines) were obtained by least-squares fits to the scattering spectra.…”

“…[7] as 3570 kg m À3 and the value of the piezoelectric effect was given as e 2 11 = 11 ¼ 0:85 Â 10 9 N m À2 at room temperature [7]. The elastic constants from Brillouin shifts at any temperature were computed with the use of the room temperature values of the density, the refractive indices, n o and n e , and the piezoelectric effect.…”

Characterizations of piezoelectric GaPO4 single crystals grown by the flux method

“…[7] and were, respectively, equal to 1.6147 and 1.6332. The position (in GHz), amplitude and width of the measured modes (the Brillouin lines) were obtained by least-squares fits to the scattering spectra.…”

“…[7] as 3570 kg m À3 and the value of the piezoelectric effect was given as e 2 11 = 11 ¼ 0:85 Â 10 9 N m À2 at room temperature [7]. The elastic constants from Brillouin shifts at any temperature were computed with the use of the room temperature values of the density, the refractive indices, n o and n e , and the piezoelectric effect.…”

Characterizations of piezoelectric GaPO4 single crystals grown by the flux method

“…Its constitutive elastostatic, electrostatic and magnetostatic equations were then solved assuming averaged homogeneous tensor fields in each perfectly elastically coupled layer (k C = 1) and under unclamped and open circuit boundary conditions. The linear anisotropic electric, magnetic and elastic material constants were obtained from the literature (Metglas [27][28][29], LNO [23], and α-GPO [22,24]). We note that a pseudopiezomagnetic approximation was assumed for the MS layer which is valid in the small region of the magnetostriction curve where the elastic strain (S i ) changes linearly with the applied bias field (H k ), and M A N U S C R I P T A C C E P T E D ACCEPTED MANUSCRIPT 4 the slope ∂S i /∂H k is maximized in such a way that S i = q ki H k where q ki denotes the piezomagnetic coefficient.…”

“…LNO is an uniaxial trigonal ferroelectric (point group 3m) with a very high Curie temperature of ca. 1150 o C [23], whereas GPO is a PE crystal with a trigonal structure (point group 32) and with a cristobalite transition at 933ºC [22,24]. Some desirable features of the two materials are their large ratio between piezoelectric and dielectric coefficients, excellent high-temperature properties, relatively low price, high chemical, thermal and mechanical stability, linear piezoelectric response, availability of high quality crystals and also a lead-free composition.…”

Anisotropy of the magnetoelectric effect in tri-layered composites based on single-crystalline piezoelectrics

“…The highest K 2 value is equal to 1.22% and it is reached at θ = 110°; while the velocity moving toward the SBAW velocity, the GSAW K 2 approaches the zero value, in accordance with the increased U 2 contribution in the depth. The acoustic waves velocity calculations along GaPO 4 were performed by using Matlab and the software from McGill University [8] in the lossless approximation; the GaPO 4 material data (the mass density, the elastic, piezoelectric, dielectric constants) as well as the thermal expansion coefficients and the third order temperature coefficients of the elastic constants, valid in the −50 °C < T < 700 °C temperature range, are referred to [7,9,10], and are those provided by Piezocryst Advanced Sensorics GmbH, which is an European GaPO 4 wafers suppliers.…”

Quasi-Linear Polarized Modes in Y-Rotated Piezoelectric GaPO4 Plates