Some of these techniques can be applied to beam probes and particle energy analyzers.
某些技术同样适用于粒子能量分析器和束流探针等离子体电位测量。
The surface hardness variations of some kinds of polymers were compared and the influence factors such as ion species, particle energy and dose were analyzed.
通过比较几种不同类型的聚合物材料在注入前后表面硬度的变化,分析注入离子种类、注入能量、注入剂量等工艺参数对聚合物的影响。
An implicit iterative method was developed to solve particle energy equations with the discrete ordinate method used to obtain the radiative intensity distributions in a utility furnace.
设计了一种隐式迭代方法求解颗粒能量方程,采用离散坐标方法计算炉膛内的辐射传热,完整地考虑颗粒能量方程中的辐射项。
The energy of a light photon or particle is different for each color.
可见光子或粒子的能量因颜色不同而不同。
All the microscopic available states, that is, if I take an individual particle and I say where it can be, all those states have the same energy.
所有的微观的可能的状态,也就是,如果我以一个单独的粒子为例,我说它可能在哪,所有那些状态都有相同的能量。
The LHC will increase the energy at which we can study particle interactions by a factor of four.
LHC能够提供相足够能量来从一个因素(共有四个因素)研究粒子的相互作用。
The theories of particle physics predict the strength of dark energy to be about 120 orders of magnitude larger than what is observed, and general relativity cannot explain this enormous discrepancy.
粒子物理学理论预言暗能量的强度要比观测到的大约大120个数量级,而广义相对论不能解释这个巨大的差异。
After collision, the energy condenses to create new particles that can be measured and tracked inside the complex particle detectors around the accelerator ring.
对撞之后,这些能量会生成一些新的粒子,它们可以在围绕着加速环的复杂粒子探测器里被测量并跟踪。
Quantum tunneling is an effect where a particle can pass through a barrier it would not normally have the energy to overcome.
量子隧穿效应是指粒子能够穿过正常来说它的能量不足以通过的障碍。
However, at present, antimatter can only be manufactured in particle accelerators, wasting over 99.999 percent of the energy used in the process.
但是现实中我们还只能在粒子加速器中制造出反物质,这几乎将99.999%的能量都浪费在了粒子加速的工作中。
For a particle to be in a state of negative energy, of course, is something which appears quite impossible.
一个粒子处在一个具有负能量的状态下,当然,是完全不可能的。
From some random collisions that just happened to bulk up the energy of that one particle.
通过随机碰撞,粒子的能量可,能会变得很大。
Hitting a dust mote-sized particle would impart the same kinetic energy as slamming head on into a speeding freight train.
与尘埃级别的颗粒相撞,都可能得到与高速货车迎面相撞的能量。
The LHC had already broken the record for collision energy, but now it has the highest rate of particle collisions per second as well, which should speed up new discoveries.
而且,现在大型强子对撞机的每秒粒子对撞率处于世界最高,这一状况可能推动一些新发现。
The energy levels detected in the natural particle accelerators were typically around 10, 000 electron volts (eV) with a maximum of around 30 million eV.
在自然粒子加速器中检测得到的能量级,通常为1万电子伏(eV)左右,最高则可达3000万电子伏(eV)。
That means it lacks sufficient energy, like x-rays and gamma rays, to remove an electron from an atom or a molecule to make a charged particle that can damage DNA and biomolecules.
也就是说,微波辐射与X射线和伽玛射线不同,是不具有足够的能量的,从而不会使原子或分子失去电子而变成带电粒子,造成DNA及其它生命分子的损坏。
What physicists are basically doing is making the collisions as powerful and as efficient as possible to turn particle mass into pure energy (as a result of Einstein's bedrock equation E=mc2).
物理学家们做的这些事的本质就是尽可能让这些对撞充满能量并且高效以使这些粒子的质量转换为纯能量(这是爱因斯坦颠补不破的方程E=mc2的结果)。
Some theories in particle physics speculate that it might, although these dimensions would be curled up in loops so small, they could probably be probed only in high-energy particle collisions.
粒子物理学的一些理论推测说有可能,尽管这些维度蜷缩在极小的闭路里,只有利用高能粒子碰撞才能探测得到。
When a particle encounters its antiparticle, they "annihilate" each other, disappearing in a high-energy flash of light.
当一个粒子遇到它的反物质的时候,他们会湮灭彼此,同时放出夺目的高能闪光。
And I'm not alone - I've witnessed him successfully explain high-energy particle physics to Arnold Schwarzenegger as well.
我也并不孤单——我曾见过他成功地向阿诺·施瓦辛格解释了高能量子物理学。
Brian Greene is perhaps the best-known proponent of superstring theory, the idea that minuscule strands of energy vibrating in 11 dimensions create every particle and force in the universe.
布莱恩·葛林可能是超弦理论的支持者中最著名的一位了,超弦理论认为宇宙中的力和粒子是由11维空间中振动的微小的弦产生的。
Currently, he is involved in high-energy particle physics and high-energy neutrino astronomy using radio telescopes.
目前,他参与了用射电望远镜进行高能粒子物理和高能中微子天文学研究的工作。
To switch spontaneously from a “1” to a “0” would entail the particle moving some 200 nanometres along the tube using thermal energy.
铁粒子利用热能沿着毫微管移动近200纳米是自发从“1”切换到“0”的必要条件。
It can allow a particle to pass through a physical barrier that should be impenetrable, or can allow an electron to escape from the pull of the nucleus without having the kinetic energy to do so.
它能让粒子通过不可逾越的物理障碍,或让电子不用动能就脱离原子核的吸引力。
In quantum mechanics the particle need not have a definite energy.
在量子力学中,粒子并不需要具有确定的能量。
Upon collision, the conversion of a particle and its corresponding antiparticle into pure electromagnetic ENERGY (called annihilation radiation).
粒子和对应的反粒子碰撞后,被完全转化为电磁辐射能量。
Upon collision, the conversion of a particle and its corresponding antiparticle into pure electromagnetic ENERGY (called annihilation radiation).
粒子和对应的反粒子碰撞后,被完全转化为电磁辐射能量。
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