永磁薄膜

Fe元素能诱导Nd元素进行共沉积，实现在水溶液中电沉积制备稀土永磁薄膜。

The codeposition of Nd element can be induced by Fe element , realizing the preparation of rare earth permanent magnet film by electrodeposition in aqueous solution .

纳米复合永磁薄膜的制备及磁性能模拟

The Preparation and Magntic Simulation of Nanocomposite Permanent Magnetic Films

永磁薄膜的研究现状

Research Status of Permanent Magnetic Films

永磁薄膜是未来微波或光隔离器和环行器，以及微马达中必不可少的材料。

Permanent magnetic films are essential to the future microwave or optical isolators or circulator and micromotors .

采用磁控和离子束联合溅射制备了NdFeB/α-Fe/NdFeB纳米复合永磁薄膜，并对其进行了热处理，主要考察了热处理温度对薄膜磁性能的影响。

NdFeB / a-Fe / NdFeB nanocomposite permanent magnetic films were fabricated by magnetron sputtering and ion beam sputtering , The influences of annealing temperature on NdFeB / a-Fe / NdFeB films magnetic properties were studied .

随着近年来微磁器件工作环境温度的提高，以及在微细加工技术中产生的不可避免的高温，永磁薄膜的高温磁学行为日益受到重视。

With increased working temperature for the micro-magnetic devices in recent years and the hige temperature comes from the micro-machining technology unavoidably , the magnetic behavior at high temperatures for the permanent magnetic films is being paid more and more attentions .

Fe-Pt纳米晶永磁合金薄膜研究现状

Developments of Research on Fe-Pt Nanocrystalline Permanent Magnets Films

纳米晶双相稀土永磁合金透射电镜薄膜样品的制备

Preparation of Nami crystal Double Phase Rare earth Permanent Magnetism Alloy Film Sample for Transmission Electron Microscope

微磁器件领域用永磁材料必须以薄膜形态直接沉积在要求提供磁场的元器件上，才能适应各种微电子和微机械系统高性能和高可靠性的要求。

In order to meet the demands of high performance and high dependability for the micro-electronics systems and micro-mechanical systems , the permanent magnetic materials applied for micro-magnetic devices must be deposited directly on the parts used for providing magnetic field as films .