For pedagogical purposes, numerical integration methods are applied to a simple eigenvalue problem in quantum mechanics. Computer programming of the problem is discussed, the effect of different choices of initial conditions is mentioned, and the sensitivity of the method, to the difference interval width is discussed
For an operator A and scalar 8, the equation Af = 8f is a typical expression of the eigenvalue probl...
The discretized Schr¨odinger equation is most often used to solve onedimensional quantum mechanics p...
Quantum mechanics undergraduate courses mostly focus on systems with known analytical solutions; the...
For pedagogical purposes, numerical integration methods are applied to a simple eigenvalue problem i...
For pedagogical purposes, numerical integration methods are applied to a simple eigenvalue problem i...
For pedagogical purposes, numerical integration methods are applied to a simple eigenvalue problem i...
The determination of eigenvalues and their related eigenfunctions is one of the central problems of...
A integration approach is taken to solve the eigenfunctions and eigen-values of the Schrödinger Equ...
Some of the problems in quantum mechanics can be exactly solved without any approximation. Some of t...
A large class of problems in quantum physics involve solution of the time independent Schrödinger eq...
We discuss the automatic solution of the multichannel Schrödinger equation. The proposed approach is...
Treballs Finals de Grau de Física, Facultat de Física, Universitat de Barcelona, Curs: 2017, Tutor: ...
The method is an extension to negative energies of a spectral integral equation method to solve the ...
Numerical solutions to the S‐limit Schrödinger equation have been obtained for He and Li^+. Using th...
A shooting method was developed to study eigenvalue problems derived from Schrodinger equation. The ...
For an operator A and scalar 8, the equation Af = 8f is a typical expression of the eigenvalue probl...
The discretized Schr¨odinger equation is most often used to solve onedimensional quantum mechanics p...
Quantum mechanics undergraduate courses mostly focus on systems with known analytical solutions; the...
For pedagogical purposes, numerical integration methods are applied to a simple eigenvalue problem i...
For pedagogical purposes, numerical integration methods are applied to a simple eigenvalue problem i...
For pedagogical purposes, numerical integration methods are applied to a simple eigenvalue problem i...
The determination of eigenvalues and their related eigenfunctions is one of the central problems of...
A integration approach is taken to solve the eigenfunctions and eigen-values of the Schrödinger Equ...
Some of the problems in quantum mechanics can be exactly solved without any approximation. Some of t...
A large class of problems in quantum physics involve solution of the time independent Schrödinger eq...
We discuss the automatic solution of the multichannel Schrödinger equation. The proposed approach is...
Treballs Finals de Grau de Física, Facultat de Física, Universitat de Barcelona, Curs: 2017, Tutor: ...
The method is an extension to negative energies of a spectral integral equation method to solve the ...
Numerical solutions to the S‐limit Schrödinger equation have been obtained for He and Li^+. Using th...
A shooting method was developed to study eigenvalue problems derived from Schrodinger equation. The ...
For an operator A and scalar 8, the equation Af = 8f is a typical expression of the eigenvalue probl...
The discretized Schr¨odinger equation is most often used to solve onedimensional quantum mechanics p...
Quantum mechanics undergraduate courses mostly focus on systems with known analytical solutions; the...
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