微波铁氧体环行器是雷达和微波系统中一个重要的非互易部件。
The microwave ferrite circulator is an important non - reciprocal component for radar and microwave system.
微波铁氧体材料的发展趋势是宽频带、功率、损耗、温度系数。
Wide frequency band, high power, low losses and wide temperature coefficient are the developing trends of microwave ferrite materiel.
微波铁氧体环行器是雷达和微波系统中一个重要的非互易部件。
The microwave ferrite circulator is an important non-reciprocal component for radar and microwave system.
实现了一种新型的基于硅ic工艺的微波铁氧体集成薄膜变压器。
A novel microwave ferrite thin-film transformer based on Si IC technology was presented.
微波铁氧体材料的发展趋势是宽频带、大功率、低损耗、宽温度系数。
Wide frequency band, high power, low losses and wide temperature coefficient are the developing trends of microwave ferrite materiel. Good material can optimize the performance of devices.
本文用耦合波理论处理了对称四磁极磁化情况下,微波铁氧体的非互易双折射效应和变极化效应。
Both nonreciprocal birefringent effect and variable polarization effect of microwave ferrite in the symmetrical four-pole magnetized field are discussed in the light of coupling-wave theory.
微波yig多晶铁氧体材料的发展趋势之一是宽频带、低损耗、高功率材料。
One of the development trends of microwave YIG polycrystalline ferrite material is wide band, low loss and high power material.
镍铜铁氧体是一种有应用价值的新型微波吸收材料。
The nano-NiCu ferrite was a new kind of applying microwave absorption materials.
为了获得高性能的微波吸收材料,釆用柠檬酸盐溶胶-凝胶法来制备掺杂有金属离子的纳米六角晶型铁氧体。
This study adopted the citrate Sol-gel method to prepare the nanophase hexagonal ferrite with doping metal to get high performance microwave materials.
综述了离子取代与六角铁氧体结构、静磁特性、微波吸收性能的关系。
The influences of ionic substitution on the structure, static magnetic characteristics and microwave absorption properties of hexaferrite were summarized in detail.
综述了离子取代与六角铁氧体结构、静磁特性、微波吸收性能的关系。
The influences of ionic substitution on the structure, static magnetic characteristics and microwave absorption properties of hexaferrite were summarized in detail.
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