该文将电荷禁闭作为夸克禁闭理论的类比。
The electrostatic shielding is used as the analogy of the theory of quark shielding in this paper.
众所周知,对称性破缺与夸克禁闭问题是理论物理中悬而未决的两大疑难。
It is well known that symmetry breaking and quark confinement are two open problems in theoretical physics.
结果表明,仍然可以得到SLAC口袋的束缚态解,从而唯象地解释了夸克禁闭。
The results agree with the SLAC bounded state solution, so that quark confinement can be illustrated.
其实对称性动力学破缺可以解决希格斯机制带来的很多问题,比如超对称和夸克禁闭等问题。
In fact, Dynamic symmetry violation can solve many problems which arising Higgs mechanism, such as super symmetry and quark confinement and other issues.
通过与色电场的类比得到,夸克禁闭区外部应为抗色介质,或者排布镜像点自由色荷系列线。
Contrasting with quark_confinement in chromo_electric field, there should be anti_color medium out of confined region, or arranging mirror line of free point color_charge.
最后利用有限温度场论,讨论了在高温度下夸克禁闭解除的可能性,并计算出了禁闭解除的可能的转变温度。
The confinement behavior at finite temperatures is also investigated and shown that color confinement at zero temperature can be melted away at high temperature.
计算表明,此模型不仅能够描述核物质的饱和性质,而且能够成功的解释夸克在高温时的去禁闭相变。
It is shown that this model can not only de-scribe the saturation properties of nuclear matter, but also can explain the quark decon-finement phase transition successfully.
通过高能重离子碰撞发现夸克胶子等离子体这一新物质形态有助于我们更好地理解量子色动力学的禁闭特性。
Study of high-energy heavy-ion collisions found quark-gluon plasma of this new material forms will help us better understand confinement , a crucial feature of QCD.
通过高能重离子碰撞发现夸克胶子等离子体这一新物质形态有助于我们更好地理解量子色动力学的禁闭特性。
Study of high-energy heavy-ion collisions found quark-gluon plasma of this new material forms will help us better understand confinement , a crucial feature of QCD.
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