Description

Book Synopsis

This monograph is devoted to random walk based stochastic algorithms for solving high-dimensional boundary value problems of mathematical physics and chemistry. It includes Monte Carlo methods where the random walks live not only on the boundary, but also inside the domain. A variety of examples from capacitance calculations to electron dynamics in semiconductors are discussed to illustrate the viability of the approach.
The book is written for mathematicians who work in the field of partial differential and integral equations, physicists and engineers dealing with computational methods and applied probability, for students and postgraduates studying mathematical physics and numerical mathematics.

Contents:
Introduction
Random walk algorithms for solving integral equations
Random walk-on-boundary algorithms for the Laplace equation
Walk-on-boundary algorithms for the heat equation
Spatial problems of elasticity
Variants of the random walk on boundary for solving stationary potential problems
Splitting and survival probabilities in random walk methods and applications
A random WOS-based KMC method for electron–hole recombinations
Monte Carlo methods for computing macromolecules properties and solving related problems
Bibliography

Stochastic Methods for Boundary Value Problems: Numerics for High-dimensional PDEs and Applications

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    Order before 4pm tomorrow for delivery by Wed 17 Jun 2026.

    A Hardback by Karl K. Sabelfeld, Nikolai A. Simonov

    15 in stock


      View other formats and editions of Stochastic Methods for Boundary Value Problems: Numerics for High-dimensional PDEs and Applications by Karl K. Sabelfeld

      Publisher: De Gruyter
      Publication Date: 26/09/2016
      ISBN13: 9783110479065, 978-3110479065
      ISBN10:

      Description

      Book Synopsis

      This monograph is devoted to random walk based stochastic algorithms for solving high-dimensional boundary value problems of mathematical physics and chemistry. It includes Monte Carlo methods where the random walks live not only on the boundary, but also inside the domain. A variety of examples from capacitance calculations to electron dynamics in semiconductors are discussed to illustrate the viability of the approach.
      The book is written for mathematicians who work in the field of partial differential and integral equations, physicists and engineers dealing with computational methods and applied probability, for students and postgraduates studying mathematical physics and numerical mathematics.

      Contents:
      Introduction
      Random walk algorithms for solving integral equations
      Random walk-on-boundary algorithms for the Laplace equation
      Walk-on-boundary algorithms for the heat equation
      Spatial problems of elasticity
      Variants of the random walk on boundary for solving stationary potential problems
      Splitting and survival probabilities in random walk methods and applications
      A random WOS-based KMC method for electron–hole recombinations
      Monte Carlo methods for computing macromolecules properties and solving related problems
      Bibliography

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