Title :
Acoustic wave propagation along cladded fibers of cubic crystal symmetry
Author :
Dai, J.D. ; Jen, C.K.
Author_Institution :
Dept. of Electr. Eng., McGill Univ., Montreal, Que., Canada
Abstract :
An approximate method is proposed to analyze the acoustic wave propagation characteristics in nonpiezoelectric cladded fibers of cubic crystal symmetry. The fiber axis coincides with the crystalline Z axis. This approximate method utilizes coupled mode equations and the exact solutions for the corresponding cladded isotropic fiber are used as the approximation base. We concentrate our analysis on cubic fibers with weak anisotropy where the first order approximation obtained from the coupled mode equations can provide accurate results. Dispersion curves of a few lower order flexural, torsional and radial-axial modes in such a fiber with infinite cladding are presented for the first time. Higher order approximations are also discussed. We show the accuracy of the perturbation formula, reveal that the torsional and radial-axial modes are not pure in cubic fibers, and inspect the modal birefringence phenomenon.<>
Keywords :
acoustic materials; acoustic wave propagation; coupled mode analysis; fibres; perturbation theory; acoustic wave propagation; anisotropy; birefringence; coupled mode equations; cubic crystal symmetry; dispersion; flexural modes; nonpiezoelectric cladded fibers; perturbation formula; radial-axial modes; torsional modes; Acoustic propagation; Acoustic waveguides; Acoustic waves; Anisotropic magnetoresistance; Birefringence; Boring; Councils; Coupled mode analysis; Crystallization; Equations;
Journal_Title :
Ultrasonics, Ferroelectrics, and Frequency Control, IEEE Transactions on
