Solving Poisson's equation with Dirichlet boundary condition using Henstock-Kurzweil integral
No Thumbnail Available
Date
2018
Journal Title
Journal ISSN
Volume Title
Publisher
Uva Wellassa University of Sri Lanka
Abstract
The Poisson's equation is an elliptic type second order partial differential equation,
which has several applications in theoretical physics, chemistry and engineering.
There are a few approaches to solve the Poisson's equation such as the Green's
function, Dirichlet's principle, layer potentials, L2
estimates, energy methods, etc.
However, in most cases it is difficult to find an analytical solution. HK-integration
has more powerful results such as: convergence theorem, Fundamental theorem of
calculus with full generality, integration over unbounded region, integral containing
parameters, etc. It would be a good idea to find an analytical solution to Poisson's
equation with Dirichlet boundary condition for general setting with more advanced
integral like Henstock—Kurzweil integral (HK-integral). We use the Green's function
to obtain a general representation formula for the solution of the Poisson's equation.
For this, Green's function G needs to exist. Moreover, it is difficult to calculate an
explicit formula for G. Thus, we need a new technique or method to evaluate. So we
use HK.-integration to find G and a representation formula for the solution. HKintegration is very simple to describe as the Riemann integral, which possesses all the
advantages of the Lebesgue integral and even more. Moreover, any Riemann or
Lebesgue integrable function is HK-integrable. Therefore, the set of all HKintegrable functions is larger than those of the set of other integrals. So, using HKintegral, one can find an analytical solution to the Poisson's equation with Dirichlet
boundary condition, where the case Riemann or Lebesgue integration does not work.
Keywords: Poisson's equation, Dirichlet boundary condition, Henstock-Kurzweil integral
Green's function
Description
Keywords
Mathematics, Statistics