任教芝加哥大学的美国科学家南部阳一郎因为发现次原子物理的对称性自发破缺机制而获一半奖金。
American Yoichiro Nambu of the University of Chicago won half of the prize for the discovery of a mechanism called spontaneous broken symmetry in subatomic physics.
本文通过一个简单模型的严格的宇宙学解说明:真空态的对称性破缺可能是一种宇宙学的效应。
Using an exact cosmological solution of a simple model it is shown that the breaking of symmetry in the vacuum state may be due to cosmological effects.
简述了已知的粒子质量公式,由动力学的对称性自发破缺机制导出粒子的动力学模型和振动-转动模型,其简化形式是谐振子模型。
The dynamical model and the oscillation-rotation model of particle are derived from the dynamical mechanism of spontaneously break symmetry, and its simplified form is a harmonic oscillator model.
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.
另外证实了(3,9 +2)或(9 + 2,3)分圆分形花样是一个对称性破缺的黄金分形。
Besides, it was demonstrated that the (3, 9 + 2) -circle and (9 + 2, 3) -circle fractal sets are golden ones with symmetry breaking.
在物理学的时空世界中,不同种类的粒子、不同种类的相互作用、整个复杂的自然界,包括人类自身,都是对称性破缺的产物。
In the world of time-space in physics, symmetry breaking results in all kinds of particles, interactions, the complicated world and even mankind itself.
日本科学家小林诚、利川敏英因发现对称性破缺的来源获得另外一半的奖金。
Makoto Kobayashi and Toshihide Maskawa of Japan Shared the other half of the prize for discovering the origin of the broken symmetry.
在一定的参数区域内,系统历经倍周期分岔、鞍结分岔、对称性破缺分岔等形式通向混沌。
The system could undergo the period-doubling bifurcation, saddle-note bifurcation, symmetry-breaking bifurcation and so forth to chaos, as the control parameter was set on some certain intervals.
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.
在本文中,我们首次通过分析人类和黑猩猩的X染色体上的一条回文序列,来寻找这种对称性破缺的规律。
In this paper, we analyze the rule of breaking on an X-palindrome between human and chimpanzee for the first time.
任教芝加哥大学的美国科学家南部阳一郎因为发现次原子物理的对称性自发破缺机制而获一半奖金。
American scientist Yoichiro Nambu of the University of Chicago won half of the prize for the discovery of the mechanism called spontaneous broken symmetry in subatomic physics.
研究得出稳定过程存在对称性自发破缺。
It founds that there is spontaneous symmetry breaking in the stabilization process.
微扰论是粒子物理学中一种非常有用的方法,但是在计算中它有时会破坏对称性,产生对称性自发破缺。
But some times the perturbation theory will devastate symmetry in computation, and bring about symmetry spontaneity breaking.
微扰论是粒子物理学中一种非常有用的方法,但是在计算中它有时会破坏对称性,产生对称性自发破缺。
But some times the perturbation theory will devastate symmetry in computation, and bring about symmetry spontaneity breaking.
应用推荐