Numerical solution of the boltzmann transport equation for photons and some equations derived from the fokker-planck approximation for electrons. Application to radiotherapy.
- Das, Taposh Kumar
- Oscar López Pouso Director
Defence university: Universidade de Santiago de Compostela
Fecha de defensa: 15 November 2012
- Lino José Álvarez Vázquez Chair
- Carmen Rodríguez Iglesias Secretary
- María Teresa Sánchez Rúa Committee member
- María Luisa Seoane Martínez Committee member
- Martin Frank Committee member
Type: Thesis
Abstract
This work is focused on the numerical resolution of the Boltzmann transport equation (BTE) for photons and of a certain type of degenerate parabolic equations which come from the Fokker‐Planck equation. BTE is solved in the three‐dimensional case by means of the so‐called “expansion in orders of scattering”, and the degenerate parabolic equation is solved with a finite difference method. MATLAB language programming has been employed to obtain the numerical results and graphics. The motivation of the thesis is the calculus of the absorbed dose of radiation during external radiotherapy cancer treatment. The first chapters gather medical‐biological and physical information, explaining the fundamentals of radiotherapy and the interaction phenomena between radiation and matter