There are convincible evidences to prove that QGP or quark matter has been produced in RHIC which lies in BNL.
位于布鲁克海文国家实验室的RHIC试验已有明显的证据表明很可能已经产生了夸克-胶子等离子体或者说夸克物质。
At RHIC, the biggest surprise was that the quark-gluon plasma, instead of being a gas, acts like a perfect liquid.
在RHIC上,最令人感应诧异的是跨克-胶子等浪子不是气体,其默示更象是液体。
Then in part four, the quantities such as particle density, energy density at RHIC energy are calculated with these parameters' values.
然后根据最佳参数值计算RHIC能量下粒子系统中各种粒子的粒密度、能密度和熵密度等。
We present the results of an aging test on two six-gap multi-gap resistive plate chambers (MRPC) designed for the RHIC-STAR TOF system.
给出了为RHIC-STAR飞行时间探测器设计的多气隙电阻板室(MRPC)的辐照实验结果。
RHIC, the most powerful such machine yet built, has the ability to create solitary strange quarks for the first time since the universe began.
最强大的粒子对撞机还没有完成,它将有能力创造宇宙诞生以来第一个单独的奇异夸克。
Inside the Relativistic Heavy Ion Collider (RHIC) at Brookhaven National Laboratory where scienstist created the highest temperature in the universe
布鲁克海文国家实验室的大型重子对撞机内---科学家制造宇宙最高温度的地方
In some respects, the quark-gluon matter looks familiar, still the ideal liquid seen at RHIC, but we're also starting to see glimpses of something new.
从一些方面看,夸克——胶子物质看上去非常眼熟,和相对论重离子对撞机的理想液体一样,但我们还从中得以发现一些新的东西。
According to the experiment data of RHIC, it analyses the relationship between the impacting times, the value of settlement and the degree of compaction.
对高速液压夯实机(RHIC)的夯实效果进行试验研究,得到夯击次数与每层沉降量及压实度的关系曲线。
One of main objects of ultra-relativistic heavy ion collisions experiments at RHIC and LHC is to discover this kind of new state of matter-quark gluon plasma.
RHIC和LHC上的相对论性重离子实验的一个主要目标就是寻找这种新的物质形态—夸克胶子等离子体。
It shows that in high energetic nuclear collisions at RHIC energies, there exists very strong transverse expansion, which becomes stronger with increasing colliding centrality.
我们将会看到在RHIC能量下的高能重离子碰撞中,存在很强的横向扩张运动,并且随着碰撞中心度的增大而变得更加激烈。
The distributions of produced particles of the newest RHIC energy show the strongest non-uniform flow feature, which means the strongest transparency at the highest RHIC collision energy.
能量越高,纵向流的非均匀分布特征越强,即在最新的RHIC能区所产生的粒子系统具有很强的非均匀分布特征,表现为很强的核透明性。
The distributions of produced particles of the newest RHIC energy show the strongest non-uniform flow feature, which means the strongest transparency at the highest RHIC collision energy.
能量越高,纵向流的非均匀分布特征越强,即在最新的RHIC能区所产生的粒子系统具有很强的非均匀分布特征,表现为很强的核透明性。
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