巨磁电阻(GMR)效应使这样一个驱动器的直径不到一英寸,检测在便携式电子设备中存储数据的微小的磁场。
The giant magnetoresistance (GMR) effect allows drives like this one, less than an inch in diameter, to detect the tiny magnetic fields that store data in portable electronic devices.
磁场还可以驱动器等风小的黑洞周围,也被称为微类星体。
Magnetic fields can also drive such winds around small black holes, also known as micro-quasars.
本文以超磁致伸缩薄膜(GMF)为驱动器,研制了一种外磁场驱动的无缆仿生游动微型机器人。
In this dissertation, by using giant magnetostrictive thin films (GMF) as actuator, a biomimetic swimming micro robot is developed.
本文以超磁致伸缩薄膜(GMF)为驱动器,研制了一种外磁场驱动的无缆仿生游动微型机器人。
In this dissertation, by using giant magnetostrictive thin films (GMF) as actuator, a biomimetic swimming micro robot is developed.
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