1) shape invariant potentials
形不变势
1.
This article presents a method to solve the eigenvalue and eigenfunction of shape invariant potentials by using the fundamental concepts of supersymmetric quantum mechanics.
本文简要论述了利用超对称量子力学的方法求解形不变势的能量本征值和本征函数,并且列举了两个例子加以说明。
2.
It is illustrated that the SWKB method has more advantages while calculating the shape invariant potentials.
简要介绍了超对称量子力学的WKB近似方法(SWKB),并举例说明了在计算形不变势的能级中,SWKB方法具有明显的优势,不但方法简捷,而且可获得精确的能谱。
2) shape invariant potential
形不变势
1.
By the method of mapping of shape invariant potentials under point canonical tra nsformations, the bound state spectra and eigenfunctions of the Hulthén potential from the known results of Pschl\|Teller Ⅰ potential were f ound.
利用在点正则变换下形不变势的映射方法 ,我们从潘歇 推劳Ⅰ势的已知结果求得了赫耳顿势的束缚态能谱与本征函数。
2.
This article shows that for all one dimensional shape invariant potentials with parameters related by translation we can find their multiparameter deformations with q acting as the deformation parameter.
证明了对参数平移相关的所有一维形不变势,都可以求得其多参数变形而以q作为变形参数。
3) shape invariant potential
形状不变势
1.
By use of the mapping of shape invariant potentials under the point canonical transformations the connections between the radial wave functions and energy levels of the N dimensional hydrogen atom and the D dimensional harmonic oscillator are given.
利用在点正则变换下形状不变势的映射方法 ,给出了D维谐振子势与N维氢原子势的能级和径向波函数之间的关
2.
For the quantum systems with a so-called shape invariant potential in the supersymmetric quantum mechanics, we find that the correction term is an invariant,independent of the number of nodes in the w.
发现该修正项正是在超对称量子力学中所谓的有形状不变势的量子系统的一个不变量,它不依赖于波函数的节点数。
4) non-shape-invariant potentials
非形状不变势
1.
Based on the quantization condition derived from the analytical transfer matrix method(ATMM),we study exact eigenenergy and energy spectrum relation of non-shape-invariant potentials in SUSYQM.
基于分析转移矩阵方法(ATMM)的量子化条件,研究了超对称量子力学中非形状不变势的精确能谱及两伴随势之间的能谱关系,与其它方法给出的结果相比,其结果较为精确,并证实在非破缺条件下,其能谱关系为E(n+)=En(+-1),而在破缺条件时,能谱关系则为E(n+)=E(n-)。
5) The chances are against it.
形势不利。
补充资料:形劫势禁
1.见"形格势禁"。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条