本文利用自由电子激光的加速器理论,建立了单粒子非线性运动方程及其非自洽数值模拟模型。
By use of accelerator theory in FEL studies, single particle, nonlinear equations of motion with corresponding non-self-consistent computer code is established.
该理论掌握了亚原子粒子在强大的加速器的作用下可以达到接近光速的速度这一表现行为。相对论的公式也预见了核弹中质(量)能(量)转换的现象。
It governs the behaviour of subatomic particles zipping around powerful accelerators at close to the speed of light and its equations foresaw the conversion of mass into energy in nuclear bombs.
不会)大型强子对撞机(LHC),人类有史以来所建造的最大的粒子加速器,将会细查微观世界中事物的生变,探寻理论上假定存在的希格斯玻色子。
The LHC, the largest particle accelerator ever built, will examine what goes on at the tiniest level, seeking the theorised Higgs Boson.
这一理论精确描述了各种各样的物理现象(包括测量所使用的GPS系统以及产生中微子束的加速器)。
This theory precisely describes all kinds of physics (including that behind the GPS systems used to make the measurements and the accelerators used to make the beam).
现在仍然没有任何粒子加速器能够达到检测弦理论所需的高能。
And no particle accelerator yet exists that can attain the high energies needed to detect strings.
本文系统论述涉及强流加速器等强流离子束装置中产生的束晕混沌的复杂性理论与控制方法及其应用前景。
This article offers an overview and comprehensive survey of the complexity theory of beam halo_chaos and its control methods with prospective applications.
该理论掌握了亚原子粒子在强大的加速器的作用下可以达到接近光速的速度这一表现行为。相对论的公式也预见了核弹中质能转换的现象。
It governs the behaviour of subatomic particles zipping around powerful accelerators at close to the speed of light and its equations foresaw the conversion of mass into energy in nuclear bombs.
根据大爆炸理论,宇宙早期具有很高的密度并且非常热,因此宇宙自身就是一个极好的粒子加速器。
Since the universe was very dense and hot in the early moments following the Big Bang, the universe itself was a wonderful particle accelerator.
任何可能的情况下,理论上得到的影响与在现有的加速器制造的报告相比较。
Whenever possible, effects derived theoretically are compared with observations made at existing accelerators.
任何可能的情况下,理论上得到的影响与在现有的加速器制造的报告相比较。
Whenever possible, effects derived theoretically are compared with observations made at existing accelerators.
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