Title :
Analysis of cladded fibers of trigonal crystal symmetry
Author :
Dai, J.D. ; Jen, C.K. ; Andreeta, J.P. ; Kushibiki, J.
Author_Institution :
Dept. of Electr. Eng., McGill Univ., Montreal, Que., Canada
Abstract :
An approximate method is proposed to analyze acoustic wave propagation characteristics in nonpiezoelectric cladded fibers of trigonal crystal symmetry. This method utilizes mode coupling equations, and exact solutions for corresponding cladded fibers of hexagonal crystal symmetry are used as the approximation base. Dispersion curves of flexural F11, F21, and F12 modes in such a fiber with infinite cladding are presented for the first time. Acoustic modal birefringence phenomenon has been observed, which means the dispersion relation of a mode depends on its transverse polarization. It is found that in trigonal cladded fibers there is generally no pure torsional and radial-axial modes. Furthermore, the acoustic characterization results obtained from experimental investigations indicate that MgO doped cladded LiNbO3 fibers may be appropriate for ultrasonic use
Keywords :
acoustic wave propagation; acoustic waveguides; crystal symmetry; fibres; lithium compounds; magnesium compounds; LiNbO3:MgO; MgO doped cladded LiNbO3 fibers; acoustic characterization; acoustic modal birefringence; acoustic wave propagation characteristics; acoustic waveguide; approximate method; dispersion curves; dispersion relation; flexural modes; hexagonal crystal symmetry; mode coupling equations; nonpiezoelectric cladded fibers; transverse polarization; trigonal crystal symmetry; ultrasonic use; Acoustic propagation; Acoustic waveguides; Acoustic waves; Birefringence; Brazil Council; Dispersion; Equations; Optical fiber polarization; Optical propagation; Propagation constant;
Conference_Titel :
Ultrasonics Symposium, 1991. Proceedings., IEEE 1991
Conference_Location :
Orlando, FL
DOI :
10.1109/ULTSYM.1991.234282
