中文摘要：

使用表面磁导率法得到斜向磁化金属／电介质／钇铁石榴石（YIG）／钆镓石榴石（GGG）／金属多层电介质结构中静磁波的传播方程。通过分析静磁正向体波（MSFVW）和静磁反向体波（MSBVW）延迟特性设计出级联MSFVW-MSBVW延迟线系统，该系统通过调节MSBVW延迟线激发场角起到控制非色散延迟时间的作用。数值计算得到一个近500MHz的非色散延迟带宽，延迟时间具有156．4—186．6ns／cm的可调范围。

英文摘要：

The magnetostatic wave propagation equation in an obliquely magnetized metal/dielectric/yttrium-iron-garnet（ YIG）/gadolinium-gallium-garnet（ GGG）/metal waveguide is obtained by use of the method of surface magnetic permeability. The particular device, which consists of a cascade connection of magnetostatic forward volume wave （MSFVW） and magnetostatic backward volume wave（MSBVW） delay lines, is designed for the tunable non-dispersive delay by adjusting the excitation direction of the MSBVW. And a 500MHz non-dispersive bandwidth with a delay range of 156.4 to 186.6 ns/cm can be achieved under the optimum structure of the multilayer dielectric waveguide.