[1] Damon R W, Eshbach J R. Magnetostatic modes of a ferromagnetic slab. J. Phys. Chem. Solids, 1961, 19(3/4):308~320
[2] Tsai C S, Young D. Magnetostatic-forward-volume-wave-based guided-wave magneto-optic Bragg cells and applications to communications and signal processing. IEEE Trans. Microwave Theory & Tech., 1990, MTT-38(5):560~570
[3] Young D, Tsai C S. X-band magneto-optic Bragg cells using bismuth-doped yttrium iron garnet waveguides. Appl. Phys. Lett., 1989, 55(21):2242~2244
[5] Kolololtsev O V, Gaidai Y A, Zaets V I. Diffraction of optical guided waves by magnetostatic waves in inclined magnetic field. Proc. of 1995 European Integrated Optics Conference, Delft, Netherlands, April 3~6, 1995, 221~223
[6] Torfeh M, Courtois L, Smoczynski L et al.. Coupling and phase matching coefficients in a magneto-optical TE-TM mode converter. Physica (B), 1977, 89:255~259
[7] Yariv A. Coupled-mode theory for guided-wave optics. IEEE J. Quant. Electron., 1973, QE-9(9):919~933
[8] Tsai C S, Young D, Chen W et al.. Noncollinear coplanar magneto-optic interaction of guided optical wave and magnetostatic surface waves in yttrium iron garne1t-gadolinium gallium garnet waveguides. Appl. Phys. Lett., 1985, 47(7):651~654