Examples of using 暗物质粒子 in Chinese and their translations into English
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但物理学家希望在大型强子对撞机(LHC)中可能产生暗物质粒子,在那里他们可以研究。
But physicists are hopeful that dark matter particles might be produced in the Large Hadron Collider(LHC), where they could be studied.一些人正在发射他们弱相互作用的大质量粒子(WIMP)探测器,而另一些人则预期暗物质粒子将更像轴子。
Some are firing up their weakly interacting massive particle(WIMP) detectors while others are expecting dark matter particles will be more like axions.根据模型,这将需要至少两种暗物质粒子,包括一个多组分暗物质。
According to their model, this would require at least two species of dark matter particles, comprising a multi-component 发现暗物质粒子的最强工具也许会是新的粒子对撞机。
The strongest tool for discovery of dark-matter particles would be a new 我们已经做了几十个实验来寻找暗物质粒子,但没有任何东西被看见。
We have done dozens of experiments that search for dark matter particles, and none has seen anything.我们把这种暗物质粒子称为“冷暗物质”的,所以很多天文学家把这个理论叫做“冷暗物质模型”。
People call dark particles like this"cold"; thus, many astronomers call this theory of galaxy evolution"the cold 如果天文学家能够缩小暗物质粒子的候选范围,我们就离在地球上直接探测它们又近了一步。
If astronomers can narrow down the candidates for dark matter particles, we will be one step closer to finally detecting them directly in experiments on Earth.LUX探测器到目前为止还未成功找到暗物质粒子(图:马特·卡普斯特).
The LUX detector has so far failed to find any evidence of dark matter particles(image credit: Matt Kapust).宇宙学家也加入了粒子物理学家和天体物理学家的跨学科竞赛,来探测暗物质粒子。
Cosmologists also join 还有另一种方法可以解释过强的吸收信号,而不需要引用新的暗物质粒子或修改引力理论。
There is another way to explain the enhanced absorption signal without the need to dispense with WIMPs or to invoke modified gravity.如果结果得到证实,下一个发现可能就是暗物质粒子本身。
If confirmation arrives, 这个实验被称为DARKSIDE-50,意在寻找暗物质粒子。
The experiment, known as DarkSide-50, is searching for particles of dark matter.科学家可以测量共振频率,并揭示暗物质粒子的质量。
Scientists could measure 牛津大学研究小组在他们的报告中指出,暗物质粒子可能像拥有两种能量态的原子,3.5千电子伏则是两种能量态的分割点。
Oxford's team suggests in their report that dark matter particles may be like atoms in having two energy states separated by 3.5 keV.然而,X17还没有被排除,在这种情况下,Debrecen团队可能确实发现了暗物质粒子是如何与我们的世界交流的。
However, X17 has not yet been ruled out, in which case the Debrecen group would have discovered how dark matter particles communicate in our world.然而,天文学家不能直接看到夜空中的暗物质,粒子物理学家在他们的实验中还没有发现暗物质粒子。
Nevertheless, astronomers cannot directly see 然而,X17还没有被排除--在这种情况下,德布勒森集团可能确实发现了暗物质粒子是如何与我们的世界通信的。
However, X17 has not yet been ruled out- in which case the Debrecen group might have indeed discovered how dark matter particles communicate with our world.以类似的方式,也许有一种暗物质粒子在引力之外的相互作用非常微弱,或者不发生相互作用,但有一小部分--也许是5%--还是会发生非引力相互作用。
In a similar fashion, maybe one type of dark matter particle experiences feeble or no interactions aside from gravity, but a fraction 暗物质粒子超出了清单。
Dark matter particles are beyond the list.所以,我们现在不知道暗物质粒子到底是什么。
We still don't know what dark matter particles are.
