1.
Differential Operator Method in Solving the Group of Constant-coefficient Non-homogeneous Liner Differential Equations
常系数非齐次线性微分方程组的微分算子解法
2.
A New Method to Figure Out Differential Equation: Differential Arithmetic Operators Progression Method;
微分方程的新解法——微分算子级数法
3.
The Resolvent Operator and Spectrum of 2n-order J-self-adjoint Vector Differential Operator;
2n阶J-自伴向量微分算子的预解算子及其谱
4.
On the Method of OperatorSolutions of the Linear Ordinary Differential Equations with Constant Coefficient;
高阶常系数线性微分方程的算子解法
5.
Analytic Descriptions of a Class Three-order Differential Operators’ Self-adjoint Domains
一类三阶微分算子自伴域的解析描述
6.
Decomposition of inverse differential operator and solution of high-order linear differential equation with constant coefficients;
逆微分算子的分解与常系数高阶线性微分方程的求解
7.
Turing-Computability of Solutions of Some Partial Differential Equations;
几个偏微分方程解算子的图灵可计算性
8.
Multiple Solutions for Nonlinear Operators and Boundary Value Problems of Differential Equations;
非线性算子与微分方程边值问题的多解
9.
PERIODIC SOLUTIONS FOR p-LAPLACIAN NEUTRAL FUNCTIONAL DIFFERENTIAL EQUATION
具有p-Laplace算子的中立型泛函微分方程周期解
10.
The Problem of Periodic Solutions for p-Laplacian Functional Differential Equations and the p-Laplacian Boundary Value Problem of Ordinary Differential Equations;
具p-Laplace算子的泛函微分方程周期解问题及常微分方程边值问题
11.
Fundamental Solution and Numerical Solution of Fractional Partial Differential Equation with Riesz(-Feller) Potential Operator;
含Riesz(-Feller)位势算子的分数阶偏微分方程的基本解与数值解
12.
Periodic Solutions for Neutral Functional Differential Equations and on the Existence of Solutions to Gradient Operator Equations;
中立型泛函微分方程周期解与梯度算子方程解的存在性
13.
characteristic polynomial of a differential operator
微分算子的特征多项式
14.
self-adjoint elliptic differential operator
自伴椭圆型微分算子
15.
partial differential operator on manifold
流形上的偏微分算子
16.
Positive Solutions of Three Point Boundary Value Problem for Third Order Differential Equation with p-Laplacian Operator
具有p-Laplacian算子的三阶微分方程三点边值问题的正解
17.
Nonhomogeneous linear ordinary differential equation with constant coefficients solving based on operator method
利用算子法求解二阶常系数非齐次线性微分方程
18.
Existence of Positive Solutions for P-Laplacian Boundary Value Problems Delay Differential Equation
具P-Laplacian算子型时滞微分方程边值问题正解的存在性