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Liouville–Neumann series

From Wikipedia, the free encyclopedia

In mathematics, the Liouville–Neumann series is a function series that results from applying the resolvent formalism to solve Fredholm integral equations in Fredholm theory.

Definition

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The Liouville–Neumann series is defined as

which, provided that is small enough so that the series converges, is the unique continuous solution of the Fredholm integral equation of the second kind,

If the nth iterated kernel is defined as n−1 nested integrals of n operator kernels K,

then

with

so K0 may be taken to be δ(x−z), the kernel of the identity operator.

The resolvent, also called the "solution kernel" for the integral operator, is then given by a generalization of the geometric series,

where K0 is again δ(x−z).

The solution of the integral equation thus becomes simply

Similar methods may be used to solve the Volterra integral equations.

See also

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References

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  • Mathews, Jon; Walker, Robert L. (1970), Mathematical methods of physics (2nd ed.), New York: W. A. Benjamin, ISBN 0-8053-7002-1
  • Fredholm, Erik I. (1903), "Sur une classe d'equations fonctionnelles", Acta Mathematica, 27: 365–390, doi:10.1007/bf02421317