'The Higgs particle is not easy to find,' Professor Heuer said.
霍耶尔表示:“希格斯玻色子不容易被找到。”
The hunt for the Higgs particle is well ahead of schedule, say researchers at the Large Hadron Collider (LHC).
对希格斯粒子的搜寻进度好于预期,大型强子对撞机(LHC)的研究员们称。
In fact, proving the Higgs particle does not exist would be scientifically every bit as valuable as proving it does.
事实上,证明希格斯粒子不存在,和证明它存在,在科学上都同样非常有价值。
If particles no get their masses from interacting with the empty space Higgs field, then the Higgs particle must exist; but we can't be certain without finding the Higgs.
如果粒子质量是从“空”的空间里面的希格斯场的作用而产生,那么希格斯粒子必然存在。但是找不到希格斯粒子之前,我们不能确定到底是怎么回事。
However, although the meeting ultimately ran smoothly, it seems likely that arguments over this issue will become more heated now that the Higgs particle is perceived to be within reach.
然而,尽管会议最终顺利的举行,似乎对于这个问题的争议更加热烈了,希格斯粒子似乎是措手可得。
The Higgs particle is predicted to exist as part of the mechanism believed to give particles their mass, and is the only piece of the Standard Model of particle physics that remains to be discovered.
希格斯粒子被预言是存在的,作为机制的一部分,它被相信是赋予粒子以它们的质量,它也只是遗留下来被发现的粒子物理系经典模型的一小部分。
The Higgs singlet is related to another particle which is also yet to be found, the Higgs boson.
和希格斯单线态粒子相关的另一种粒子——希格斯玻色子,同样尚未被发现。
Yet the easiest way to sell it to politicians was to frame it as a search for a single particle, the Higgs boson.
当然将这个项目推销给政客的捷径是把它包装成为研究单一粒子的项目,希格斯玻色子。
The Higgs boson is a hypothesised particle which, if it exists, would give the mechanism by which particles acquire mass.
希格斯玻色子是一个假说中的粒子。如果它存在,我们就知道了赋予粒子以质量的物理机制。
Asquith, like many physicists, spends a lot of time thinking about particles like the elusive Higgs boson - the subatomic particle that scientists say endows everything in the universe with mass.
阿斯奎斯像其他许多物理学家一样花了很多时间来思考像希格斯玻色子那样难以捉摸的微粒子——被科学家推测其普遍存在于大自然万物中的一种微粒子。
The Higgs is a crucial missing piece in the Standard Model, the most widely accepted framework for particle physics.
西格雷粒子是标准模型缺失的一个重要部分,而标准模型是粒子物理学界广泛认可的结构框架。
After decades searching for the Higgs in particle collisions at CERN, and at Fermilab in the us, researchers at the LHC believe they may finally have the elusive particle within their grasp.
在CERN以及美国的费米实验室用粒子对撞机寻求希格斯子数十年后,LHC的研究者们相信他们也许会最终抓住这位粒子通缉犯。
The most sought after particle in particle physics - the Higgs boson - is believed to endow all other particles with mass.
粒子物理里的终极追求——希格斯玻色子——被认为是赋予其它粒子以质量的粒子。
The theory is that the world’s biggest atom smasher might be able to unleash the Higgs singlet - a particle that could appear before the collision that produced it.
按他们的理论,这台世界上最大的原子粉碎机可能轰击出希格斯单线态粒子,这种粒子可能会在产生它的碰撞发生之前就出现。
The theory is that the world's biggest atom smasher might be able to unleash the Higgs singlet - a particle that could appear before the collision that produced it.
按他们的理论,这台世界上最大的原子粉碎机可能轰击出希格斯单线态粒子,这种粒子可能会在产生它的碰撞发生之前就出现。
Until recently, the LHC only accelerated protons and collided them inside the particle accelerator mainly to search for the infamous Higgs boson and other exotic particles.
直到最近,大型强子对撞机只加速过质子,让它们在微粒加速器中碰撞,主要是为了寻找广为人知又缺乏实证的希格斯玻色子和其他的异粒子。
The LHC, the largest particle accelerator ever built, will examine what goes on at the tiniest level, seeking the theorised Higgs Boson.
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。
Or the bump could be from some unexpected new particle rather than the Higgs.
或者可能发生爆炸,但是来源于新的未发现粒子的能量而不是靠玻色子本身的能量。
Physics blogs are alive with chatter about a possible sign of the Higgs boson - or perhaps an entirely unexpected particle - in data from the Large Hadron Collider near Geneva, Switzerland.
许多物理博客炒得如火如荼,由于博主喋喋不休的探讨出现希格斯波色粒子迹象的可能性——或者也许是完全出乎预料的粒子——日内瓦和瑞士附近大型强子对撞机的数据表明。
In this recent audio interview, Randall talks about the beauty of the Higgs mechanism and the bright future of particle physics.
在这份最新的音频访谈中,Randall谈及了希格斯机制的优美之处以及粒子物理学的光明前途。
The Tevatron physicists’ observations have also narrowed the range of mass that the Higgs boson might have, adding to their earlier evidence that the particle may be lighter than expected.
Tevatron物理学家的观测使他们缩小了希格斯玻色子可能的质量范围,进一步证明了他们先前发现的证据:这种粒子可能比人们估计的更轻。
Researchers have now found every particle predicted by the model, save one: the Higgs boson, theorized to help endow other particles with mass.
研究人员现在找到了模型预测的每一个粒子,并将其中一个保存下来:希格斯色子(Higgs boson)从理论上帮助赋予其他粒子以质量。
The Higgs is the last undiscovered particle in the standard model of particle physics, which for three decades has reigned supreme in explaining how particles and forces interact.
玻色子是在粒子物理学标准模型中最后一个未被发现的粒子,30年以来,玻色子处于解释粒子和力度之相互作用原理的最高地位。
Turner explained that discovering a mass-inducing particle, called the Higgs boson, remains the next big test for the standard model.
Turner解释说,能否?发现一种叫希格斯介子(Higgs boson)的能够产生质量的微粒(mass-inducing particle),仍然是标准模型将要面对的下一个重大考验。
The Large Hadron Collider is a 27km-long circular accelerator that is being built at CERN, the European particle-physics laboratory near Geneva, specifically to look for the Higgs boson.
那个大型强子碰撞机是建在日内瓦附近的欧洲粒子物理研究所的一个长为27公里的回旋加速器,其主要功能就是寻找Higgs玻色子。
The LHC’s most publicised goal is to find the Higgs boson, a particle believed to be the magic ingredient that gives other elementary particles their mass.
LHC最受瞩目的目标是寻找希格斯玻色子,这种粒子被看成是给其它基本粒子以质量的神奇成分。
The Higgs boson, predicted but still unseen, is the most wanted subatomic particle.
预言中仍未被发现的希格斯玻色子,是人们最梦寐以求的亚原子粒子。
Elementary particle masses are thought to come about from the interaction with the higgs field.
物理学家认为基本粒子的质量来自于粒子与希格斯场的交互作用。
A view inside the ATLAS detector. Physicists hope to use the detector to find and detail the Higgs boson, a particle believed to imbue more conventional matter with mass.
阿内的ATLAS探测器的看法。物理学家希望用探测器寻找希格斯玻色子和细节的,一个粒子相信更传统的灌输与群众的问题。
A view inside the ATLAS detector. Physicists hope to use the detector to find and detail the Higgs boson, a particle believed to imbue more conventional matter with mass.
阿内的ATLAS探测器的看法。物理学家希望用探测器寻找希格斯玻色子和细节的,一个粒子相信更传统的灌输与群众的问题。
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