N. Gurappa, Abhijit Sen, Rajneesh Atre, Prasanta K. Panigrahi
Published 2012-05-02Version 1
We explicate a procedure to solve general linear differential equations, which connects the desired solutions to monomials x^m of an appropriate degree m. In the process the underlying symmetry of the equations under study, as well as that of the solutions are made transparent. We demonstrate the efficacy of the method by showing the common structure of the solution space of a wide variety of differential equations viz. Hermite, Laguerre, Jocobi, Bessel and hypergeometric etc. We also illustrate the use of the procedure to develop approximate solutions, as well as in finding solutions of many particle interacting systems.
Comments: 12 pages, 1 table. arXiv admin note: substantial text overlap with arXiv:quant-ph/0204130
On the Applications of a New Technique to Solve Linear Differential Equations, with and without Source
Symmetry problem
A novel approach to estimate the stability of one-dimensional quantum inverse scattering
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