Based on Time-dependent Schroe dinger wave equation and physical problems,the stability conditions for the choice of increment parameters are deduced in this paper.
文章从含时薛定谔波动方程出发,结合物理问题中的实际条件,推导出了空间和时间增量必须满足的数值稳定性条件。
Application of time-splitting and wavelet based space-time adaptive method to solving Schrdinger equations;
时间分裂空间小波自适应方法在薛定谔方程中的应用
In the field of force with nucleus as the center we set up the radial Schrdinger equation of alkaline metal atom, change it into the same form as the radial equation of hydrogen atom, compare it with the energy level of hydrogen atom, get the energy level formula of alkaline metal atom and discuss the fission law of alkaline metal atom energy level at the same time.
在以原子核为中心的力场中 ,建立碱金属原子的径向薛定谔方程 ,再将方程变成与氢原子径向方程相同的形式 ,类比氢原子的能级 ,得出了碱金属原子的能级公式 ,进而讨论了碱金属原子能级的分裂规
Analysis on spatial modulation instability about nonlinear Schrdinger equation in the case of considering 3-dimensional(3D) 3-component(3C),which is the cause of self-focus.
在考虑三维三分量[1]的情况下对非线性薛定谔方程进行同时考虑横向和纵向的空间调制不稳定性分析,其空间调制不稳定是导致自聚焦的原因。
The Steady-State Solution and Non-Steady-State Solution to the Schrodinger Equation;
薛定谔方程的定态解与非定态解
The numerical value calculation of schrodinger equation;
薛定谔方程的数值计算设计
The atom s probability in crystal was investigated by using the one-dimensional linearity resonance model and the Schrodinger equation.
在一维线性谐振子模型基础上,应用薛定谔方程分析了晶体中原子的概率分布;将晶体中原子的概率分布定义为原子云,解释了物理气相沉积法制备薄膜时残余应力产生的原因,建立了薄膜残余应力产生机理的理论模型。
The Schrdinger equation is given directly from the classical Hamiltonian function of a damping harmonic oscillator,and its solution is obtained by the separation of variables.
写出阻尼谐振子的哈密顿函数,对其直接量子化,用分离变量法得出了薛定谔方程的解。
In this article the distribution functions are constructed with the solution of the Schrdinger equation in phase space and it is found that the constructions of various distribution functions are not the same.
利用推广后的T-F相空间中的薛定谔方程的解来构造分布函数。
Using the method of structuring radial wave function for hydrogen atom,we have given the coefficients of the power-polynomial of the radial wave function for hydrogen atom by solving the Schrdinger equation.
用构造氢原子径向波函数的方法,通过解薛定谔方程给出氢原子径向波函数幂多项式的系数。
An explicit analytical solution of the Schrdinger equation for a detuned quantum frequency conversion system;
失谐量子频率转换系统薛定谔方程的显式解析解
A concise method to solve Schrdinger equation with given potential: method of Cole-Hopf transformation;
一种简捷求解定态薛定谔方程的方法:科尔-霍普夫变换法
The variable separation approach and study on solving the variable-coefficient nonlinear Schrdinger equation;
变量分离法与变系数非线性薛定谔方程的求解探索
The U(1) Symmetry of the Schrodinger Equation and the Continuity Equation;
薛定谔方程的U(1)对称性与连续方程
Applying the Second Theorem of Dimension to Dimensionless Schrodinger Equation;
用量纲Ⅱ定理对薛定谔方程无量纲化
Solving Time-dependent Schrdinger Equation Based on FDTD Method
基于FDTD方法求解含时薛定谔方程
Exact Solution of the Schr(?)dinger Equation for a Driven Time-dependent Harmonic Oscillator;
含时受迫谐振子薛定谔方程的精确解
The Symposium on Schrodinger Equation of Harmonic Oscillator;
谐振子含时薛定谔方程的辛算法研究
Existence of Solutions for Asymptotically Linear Schrdinger Equations
一类渐进线性薛定谔方程解的存在性
Exact solutions to nonlinear Schrdinger equations
一类非线性薛定谔方程的精确解析解
Solve the Nonlinear Schrodinger Equation by the Precise Integration Method
用精细积分法求解非线性薛定谔方程
Schr?dinger Equation′s Gauge Variance and Maxwell Equations
薛定谔方程的规范变换与麦克斯韦方程组
The Analytic Solution of the Schr(?)dinger Equation and Dirac Equation for the Superposition Potential of the Power Functions
幂函数叠加势的薛定谔方程及Dirac方程的解析解
The steady-state solution of one-dimensional Schrdinger equation with the shooting method
用打靶法求解一维薛定谔方程的定态解
A Finite Difference Method for One-dimensional Schr(?)dinger Equation on Unbounded Domain;
一维无界域上薛定谔方程的有限差分方法
The Direct Perturbation Method and Approximate Solutions of Nonlinear Schr(?)dinger Equation Hierarchy;
直接微扰方法和非线性薛定谔方程族的近似解
Solve Time-dependent Schr(?)dinger Equations with Perturbed Collocation Method;
用摄动配置方法求解时间相关的薛定谔方程
Approximation Solution of Schrodinger Equation for Hydrogen Molecular ion HD~+;
氢分子离子HD~+的薛定谔方程的求解方法
The schroedinger equation for the one-electron atom is exactly soluble.
单电子原子的薛定谔方程是可精确求解的。
SOLUTION OF THE SCHRODINGER EQUATION FOR THE HARMONIC OSCILLATOR WITH ZERO POTENTIAL BEYOND A DIFINITE DISTANCE
有限远处谐振子的势为无穷时薛定谔方程解
Exact jacobian periodic wave and solitary wave excitations for Higher-order nonlinear Schr?dinger equation
高阶非线性薛定谔方程的精确周期解和孤波解