- 更多网络例句与奇异粒子相关的网络例句 [注:此内容来源于网络,仅供参考]
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The most powerful atom smasher ever built could make some bizarre discoveries, such as new forces of nature or even extra dimensions of space, after it's switched on in August.
有史以来最有威力的核粒子加速器8月份开启以来,有一些奇异的发现,比如自然界新的力量甚至空间的多维性。
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A striking manifestation of the motion of particles in liquids was given for the first time by the so-called Brownian movement, a remarkable phenomenon which would remain quite mysterious and incomprehensible without the kinetic theory of matter.
所谓的布朗运动,首先给液体内粒子的运动作了一个令人信服的说明。这个奇异的现象,如果没有物质动理论,便会是完全神秘和不可理解的。
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The discovery of strange particles lead to a generalization of the law of nucleon conservation .
奇异粒子的发现导致了核子守恒定理的推广。
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At the same time, the producing sequence of the strange particles is not only determined by their mass, but also determined by some properties of neutron star.
同时,奇异粒子产生的先后顺序不仅由他们本身的质量决定,而且还由中子星的一些性质决定。
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A physical scenario in which multi-strange baryons do not participate in a common expansion and thus decouple early from the collision system due to their small hadronic cross sections, was proposed to explain this observation.
因此研究奇异粒子的椭圆流可以帮助我们更好地认识碰撞的早期。
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You may have heard about muons, gluons and other strange particles.
你可能听过介子,胶子和其他奇异粒子。
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In a hadronic scenario, strange particles can be produced through inelastic collisions which will drive the system toward chemical equilibrium.
在强子图象中,奇异粒子可以通过非弹性碰撞来产生,这一过程将使系统趋于化学平衡。
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The study of strange particle production has consistently played an important role in revealing the production mechanisms in relativistic heavy-ion collisions.
奇异夸克的质量和理论预言的相变温度相当,奇异粒子的产生一直是研究相对论重离子碰撞中粒子产生机制的重要手段。
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If there is more matter in the universe than this, as the measurements appear to be telling us, then it must be made up of some strange particle which is not familiar to us here on earth.
如果与这比较宇宙有更多物质,如测量似乎告诉我们那样,那么它一定由地球这里不是我们熟悉的一些奇异粒子组成。
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We measured as a function of transverse momentum for strange particle and from minimum bias collisions, integrated over rapidity and centrality by taking the multiplicity-weighted average.
我们测量了奇异粒子和的椭圆流参数随粒子横动量的变化。
- 更多网络解释与奇异粒子相关的网络解释 [注:此内容来源于网络,仅供参考]
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gev:十亿电子伏特
所有这些强子的特徵,分类以及相互间的关系,只有在头一个十亿电子伏特(GeV)级的加速器使用之后才逐步得到了解. 头一个这种加速器是美国布鲁克黑汶的三GeV质子同步加速器,名称叫日斯摩冲. 这个加速器在计画兴建时尚不知道有所谓「奇异粒子」,
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quantum number:量子数
粒子和反粒子的质量和生命期(Lifetime)相同,但所带电荷及其他量子数(Quantum number), 如以下提到的重子数,轻子数和奇异数(Strangenessnumber等等)加起来是零.
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singular point:奇异点
电子又由夸克(quark)组成,甚至力也是粒子,稳定强弱作用力的粒子例如胶子 g,当位了抚平这些物理解释极端的现象,通常也就是数学上奇异点(singular point)存在的地方,为来的维度的存在与卡拉比-丘流形(Calabi-Yau manifold)有某种关联性,
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hyperon:超子
例如含有一个奇异夸克的Λ, 是由一个上夸克一个下夸克以及一个奇异夸克(s)所组成的, 或者可以用(uds)表示. 含有奇异夸克的粒子, 又有另外一个名字叫做超子(Hyperon).
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strange particle:奇异粒子
strainer 粗滤器 | strange particle 奇异粒子 | strangeness 奇异性
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antineutron:反中子
反质子(Antiproton)与反中子(Antineutron)大量地产生,微中子的能量密度也极高. 在继续膨涨的过程中,物质和辐射能逐渐冷却下来. 在温度降低到1010°K时,几乎所有的奇异粒子(Strangeparticles)和反粒子(除了正电子以外)都消失了.