我们还研究过加速器磁场中的康普顿背散射,探索了磁场导致的空间非对易的可能效应。
We also studied backward Compton scattering in the accelerator magnetic field, and explored possible effect of space noncommutativity caused by the lowest Landau level.
这些初级注入加速器(feeder accelerators )不能直接(将质子束)注入LHC,因其管道被引导质子的铁磁体所密闭包围(译者注:一般都是用交变的电磁场加速质子)。
These feeder accelerators cannot inject straight into the LHC because their pipes are enclosed in bulky magnets that steer the protons.
为了要做那些,CERN建造了反质子加速器,他说,使用电场和磁场把接近光速度的粒子减慢到光速的十分之一左右。
To do that, CERN built the Antiproton Decelerator, which USES electric and magnetic fields to slow the particles from near light speed to about one-tenth of that, he said.
在电子感应加速器中,同一个磁场用于两种目的。
In the betatron, a single magnetic field is harnessed for both purposes.
而在环形加速器内,是靠环形路径上的磁场加速的。
In a circular accelerator, magnetic fields accelerate particles moving in circular paths.
它们由高速电子产生——在所谓的直线加速器中,电子在长达数公里的空管中加速到特定能量水平,再用专门设置的磁场使其转向。
They are generated by accelerating electrons to very high energy levels in kilometer-long vacuum tubes, so-called linear accelerators, and then deflecting them with specially arranged magnets.
本文对自由电子受激辐射器件与电子直线加速器中的电子注与电磁场的相互作用进行了量子力学分析,认为电子注的电子结构应由束缚电子对组成。
This paper gives a quantum mechanical analysis of the interaction between the electromagnetic field and the electron beam of free electron stimulated emission devices or linear electron accelerator.
当带电粒子在加速器中做圆周运动时,加速器的磁场可以看作周期静磁场,可以等效为虚光子。
When charged particle does circular motion in the accelerator, the magnetic field of the accelerator can be taken as periodic, and equivalent to virtual photon.
当带电粒子在加速器中做圆周运动时,加速器的磁场可以看作周期静磁场,可以等效为虚光子。
When charged particle does circular motion in the accelerator, the magnetic field of the accelerator can be taken as periodic, and equivalent to virtual photon.
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