In the maths of supersymmetry, the Higgs emerges quite naturally.
在超对称的数学模型中,希格斯粒子的出现是自然而然的。
It's helped physicists rule out certain supersymmetry models that predict otherwise.
它能帮物理学家排除某些关于超对称性的不可能预测。
Processes other than supersymmetry could also account for the triple lepton surplus.
除了超对称之外的其它过程也可能导致出现三轻子对结果的出现。
One framework to explain physics beyond the Standard Model is known as supersymmetry.
超对称性理论被认为是,可以用来解释那些,连标准模型都解释不了的物理学的一个理论结构。
Models based on supersymmetry seek to simplify things by making them more complicated.
通过更加复杂化基本模型,基于超对称的模型意图简化事物。
These would be evidence for an as yet hypothetical view of the world called supersymmetry.
这些粒子是目前还是假说的超对称世界的存在的证据。
So if supersymmetry is true, there should be less of this isotope around than the Standard Model predicts.
因此,如果对超对称性确信无疑,那么宇宙空间中元素同位素的存在就会比标准模式预测的要少。
For supersymmetry, ATLAS and CMS will each have enough data to double today's sensitivity to certain new discoveries.
对于超对称,ATLAS和CMS将各自拥有足够数据将目前某些新发现的灵敏度提高双倍。
Lord Rutherford, who proved that atoms exist, knew nothing of neutrons. Chadwick knew nothing of quarks, let alone supersymmetry.
就好比lord Rutherford证明了原子的存在但不知还有中子,Chadwick不知道夸克的存在一样,更不用说是超对称性了。
And if he is right, he may have opened a window on to a theory of physics known as supersymmetry, which goes beyond the Standard Model.
如果他的构想正确无误,他可能已经开设起一个新平台来研究一种称为“超对称性”的新型物理理论,这也就超出了标准模式理论的控制范围。
By the end of the year, it will reach 1, 000 gigaelectronvolts — potentially ruling out some of the most favored variations of supersymmetry theory.
到年底,对撞机将达到1000千兆电子伏——极有可能排除超对称性理论中最常提到的一些变化。
The diagonal form clearly exhibits a symmetry between the positive and negative parts of the spectrum of a "Dirac operator with supersymmetry".
对角化形式清楚表现出“带超对称的狄拉克算子”光谱的正负粒子的对称性。
Physicists also hope the collider will help them see and understand other suspected phenomena, such as dark matter, antimatter and supersymmetry.
物理学家同样也希望对撞机能让他们看到并了解其它未知原因的现象,例如暗物质、反物质和超对称性。
A particle theory called "supersymmetry" predicts the existence of weakly interacting massive particles (WIMPs), which could be the particles of dark matter.
一种被称为“超对称性”的粒子理论预言了“弱作用重粒子”(WIMPs)的存在——它也许就是暗物质粒子。
By then, he said, his team might be able to make a definitive statement about supersymmetry and some other theories to explain physics beyond the Standard Model.
他说,到那时,针对超对称性和一些连标准模型都无法很好解释的物理学,他的小组就能够提供一个具有权威性的说明了。
We find that the spontaneous breaking of gauge symmetry and supersymmetry can be realized, but it is difficult to make the quarks and leptons to acquire small masses.
发现规范对称自发破缺和超对称破缺是可以实现的,但在夸克轻子质量问题上遇到困难。
It is designed to find the Higgs boson, which is needed by physicists to explain the existence of mass, and to explore a branch of physics called supersymmetry. See article.
建造大型强子对撞机的目的是寻找希格斯玻色子,以解释物理学家解释质量的存在,并探索物理学的一个分支,即所谓的超对称性。
Scientists will be looking for evidence of "supersymmetry" - a theory in which existing elementary particles are paired with a massive "shadow" partner - and extra dimensions.
科学家们会寻找“超对称”的证据(在这个理论中已有的元素粒子都与一个巨大的影子伙伴粒子相伴)和更广的领域。
'we'd then be in a position to say supersymmetry is right because we have seen a distorted electron or supersymmetry has got to be wrong because we haven't,' he told BBC News.
他告诉BBC新闻台:“那时,我们能够说,因为我们看到了一个扭曲、变形的电子,因此,超对称性理论是正确的;或者,恰恰相反,因为我们没有找到这样一个扭曲、变形的电子,因此超对称性理论是错误的。”
Confirmation of supersymmetry would be a shot in the arm for M-theory and help physicists explain how each force at work in the universe arose from one super-force at the dawn of time.
如果能证实超对称性的确存在,那无异于为M理论注入了一针强心剂,物理学家们可以借此来解释宇宙诞生之初,各种作用力是如何从一种超级作用力里诞生的?
Confirmation of supersymmetry would be a shot in the arm for M-theory and help physicists explain how each forces at work in the universe arose from one super-force at the dawn of time.
如果能证实超对称性的确存在,那无异于为M理论注入了一针强心剂,物理学家们可以借此来解释宇宙诞生之初,各种作用力是如何从一种超级作用力里诞生的?
A hypothetical particle consisting of a very short one-dimensional string existing in ten dimensions. It is the elementary particle in a theory of space-time incorporating supersymmetry.
一假想存在于十维空间中的粒子,由一根短的一维纤维组成。这是一种时空混合超对称性理论中的基本粒子。
One possibility predicted by M-theory is supersymmetry, an idea that says fundamental particles have heavy – and as yet undiscovered – twins, with curious names such as selectrons and squarks.
M理论预测了超对称性的存在,超对称性认为所有基本粒子都存在伴粒子,这些伴粒子的名称都很奇特,比如超对称电子(selectrons)和超对称夸克(squarks)等,但到目前为止,科学家们还没有发现这种超对称性伴粒子。
Data from the CMS experiment is showing significant excesses of particles known as leptons being created in triplets, a result that could be interpreted as evidence for a theory called supersymmetry.
大型强子对撞机上安装的“紧凑型缪子线圈”探测设备(CMS)获取的数据显示一种名为“轻子”的基本粒子在实验中显示很高的几率以三个一组被创造出来,这是一种名为“超对称”的理论所预言的结果。
Data from the CMS experiment is showing significant excesses of particles known as leptons being created in triplets, a result that could be interpreted as evidence for a theory called supersymmetry.
大型强子对撞机上安装的“紧凑型缪子线圈”探测设备(CMS)获取的数据显示一种名为“轻子”的基本粒子在实验中显示很高的几率以三个一组被创造出来,这是一种名为“超对称”的理论所预言的结果。
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