摘要
太阳系行星的轨道分布具有类似于氢原子中电子的量子化分布特性 ,许多研究者将量子力学中的玻尔轨道理论和薛定谔方程推广应用来类比研究这一宇观现象。如果用量子力学的数学方法来描述原行星星云中的微观粒子的混沌行为 ,则星云中最丰富的粒子的径向分布几率密度峰与行星的位置很好地对应。
The planetary orbit distribution in the solar system has quantization nature, which is similar to that of the electron in hydrogen atom. The Bohr's orbit theory and the Schr o¨ dinger equation have been extended to analogously investigate the cosmic scale phenomenon by many researchers. If the chaotic behavior of particles in the proto planetary nebula can be described in terms of the mathematics method in quantum mechanics, the good correspondences between the planetary distances and the radial probability density peaks of the most abundant nebular particles can be found. The radial positions of the density peaks are given by a mathematics equation.
出处
《青岛大学学报(自然科学版)》
CAS
2002年第2期83-87,共5页
Journal of Qingdao University(Natural Science Edition)
