n.电子感应加速器；电子回旋加速器

The Betatron was a pioneering particle accelerator that used a magnetic field to accelerate electrons.
这台Betatron是粒子加速器的先驱，它利用磁场来加速电子。
In the 1940s, scientists at Los Alamos National Laboratory built the world's first operational Betatron.
在20世纪40年代，洛斯阿拉莫斯国家实验室的科学家建造了世界上第一台投入运行的Betatron。
Its most notable achievement was the acceleration of electrons to relativistic speeds, a crucial step in the development of particle physics.
它最显著的成就是将电子加速到接近光速，这是粒子物理学发展的重要一步。
The Betatron principle laid the groundwork for modern synchrotron radiation facilities.
Betatron原理为现代同步辐射设施奠定了基础。
Researchers used the Betatron to study the interaction between particles and high-energy electromagnetic fields.
研究人员利用Betatron研究粒子与高能电磁场之间的相互作用。
The Betatron marked a significant milestone in the history of particle accelerators, as it was the first to achieve such high energies.
Betatron在粒子加速器的历史上是一个重要的里程碑，因为它首次实现了如此高的能量。
Due to its limitations, the Betatron eventually gave way to more advanced technologies like linear accelerators (LINACs).
因为它的局限性，Betatron最终被更先进的技术如直线加速器（LINACs）所取代。
Scientists learned valuable lessons about energy containment and particle behavior from the experiments conducted in the Betatron.
科学家们从在Betatron进行的实验中获得了关于能量储存和粒子行为的宝贵经验。
The Betatron's legacy lives on in the design and operation of modern particle accelerators, which often incorporate its basic principles.
Betatron的理念在现代粒子加速器的设计和运营中得以延续，常常融入其基本原理。
The decommissioned Betatron now stands as a historical monument, a testament to humanity's early attempts to explore the realm of subatomic particles.
这座退役的Betatron现在成为了历史遗迹，象征着人类早期探索亚原子世界的尝试。