Abstract
This thesis advances the understanding of charge propagation in a classical
background through the study of the canonical quantisation of a
charged particle in an intense laser background and the associated twopoint
function. We will clarify how the causal propagator can be extracted.
In addition, in this thesis we will provide an interpretation of this
propagator in terms of degenerate quantum processes. We show how to
use the Feynman diagram technique to build up a perturbative description
of the interaction with the laser background. This also includes how
multi-pole structures emerge as a perturbative feature. For all orders in
perturbation theory we calculate the associated multiple wave-function
renormalisations. We use Bessel functions to describe the distortion of
the plane wave solutions due to the interaction with the laser. This is
done for both a circularly and a linearly polarised laser.
Date of Award | 2013 |
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Original language | English |
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Awarding Institution | |
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Supervisor | David McMullan (Other Supervisor) |
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Charge Propagation in a Classical Background.
Raddadi, M. (Author). 2013
Student thesis: PhD