1) thermomagnetic recording
热磁记录
1.
It may be understood by simulating the thermomagnetic recording of magneto optical films all kinds of factors that affect thermomagnetic recording.
对磁光薄膜进行热磁模拟可以了解影响热磁记录过程的各种因素及这些因素间的相互关系以及它们对写入信息的影响。
2) thermally assisted magnetic recording
热辅助磁记录
3) thermal assistant perpendicular media
热辅助垂直磁记录介质
1.
This article focused mainly on the conventional perpendicular media, tilted perpendicular media, and thermal assistant perpendicular media.
由于磁记录技术的迅速发展,不断出现新的设计和革新,这里着重介绍了传统的垂直磁记录介质、倾斜垂直磁记录介质和热辅助垂直磁记录介质。
4) magnetic recording head
磁记录头
1.
Perpendicular magnetic recording, magnetic recording material,magnetic recording medium,GMR material, and magnetic recording head are introduced.
本年综述的内容包含:(1)垂直磁记录;(2)磁记录材料;(3)高密度磁记录介质;(4)巨磁电阻材料;(5)磁记录头。
2.
In this year it consists of (1)magnetic recording head materials;(2)giant magnet-resistance materials;(3)perpendicular magnetic recording materials;(4)high density magnetic storage maferials;(5)study of magnetic thin film by magnet-optical method.
本年的综述内容包含 :(1)磁记录头材料 ;(2 )巨磁电阻材料 ;(3)垂直磁记录材料 ;(4 )高密度磁存储材料 ;(5 )磁膜的磁光法研
5) magneto-optical recording
磁光记录
1.
This paper analyses the progress of recording, readout and preservation, and compares the hard disk recording, perpendicular magnetic recording and magneto-optical recording.
本文通过对信息记录、读出和存储三个过程的分析,对比了硬磁盘记录、垂直磁记录和磁光记录的优缺点,指出了采用垂直记录模式、非晶结构合金薄膜或铁氧体薄膜介质是实现超高密记录的方向,光辅助磁记录是很有希望的记录技术。
2.
The coercivity of cobalt ferrite thin film is one of the most important properties in applications for high density magnetic recording and magneto-optical recording.
矫顽力是钴铁氧体薄膜作为高密度磁记录以及磁光记录介质的重要指标。
3.
These can satisfy the request of magneto-optical recording media about high coercivity and big kerr rotation.
能满足磁光记录材料矫顽力大,磁光克尔角大的要求。
6) magnetic recording
磁记录
1.
The PRML Technic Research and Application in Magnetic Recording Systems;
磁记录中的PRML技术研究及其应用
2.
Metal magnetic powder with fine particles and relative higher coercivity and remanence are ideal materials for high density magnetic recording.
金属磁粉颗粒细小,具有较高的矫顽力和剩磁,是较为理想的高密度磁记录材料。
3.
Although existing and increasingly growing over the span of an entire century,magnetic recording has been one of the most important of information storage technologies.
磁记录技术已经经历了一个世纪的发展 ,迄今仍然是最重要的信息存储技术。
补充资料:磁表面记录介质
分子式:
分子量:
CAS号:
性质:磁记录材料大都是由磁层及其支持体——带基(盘基)所组成。磁层是记录实体。一切信号都记录在这一表层上,故又称其为磁表面记录介质。
分子量:
CAS号:
性质:磁记录材料大都是由磁层及其支持体——带基(盘基)所组成。磁层是记录实体。一切信号都记录在这一表层上,故又称其为磁表面记录介质。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条