Collisional particle in cell modelling of the propagation of fast electrons in solid density plasma

This thesis looks at the effects that electron-ion Coulomb collisions have on fast electron transport in solid density plasma. The study of the fast electrons generated in ultra-high intensity laser-plasma interactions is important due to their envisioned use in the fast ignition approach to inertia...

Full description

Bibliographic Details
Main Author: Lloyd, Rhys David
Other Authors: Kingham, Robert ; Evans, Roger
Published: Imperial College London 2013
Subjects:
530
Online Access:http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.616741
id ndltd-bl.uk-oai-ethos.bl.uk-616741
record_format oai_dc
spelling ndltd-bl.uk-oai-ethos.bl.uk-6167412017-06-27T03:23:31ZCollisional particle in cell modelling of the propagation of fast electrons in solid density plasmaLloyd, Rhys DavidKingham, Robert ; Evans, Roger2013This thesis looks at the effects that electron-ion Coulomb collisions have on fast electron transport in solid density plasma. The study of the fast electrons generated in ultra-high intensity laser-plasma interactions is important due to their envisioned use in the fast ignition approach to inertial confinement fusion. Collisions have been added to the particle-in-cell (PIC) code EPOCH in order to study the propagation of fast electron beams in various solid density targets. By using a collisional PIC model several of the assumptions used in previous studies are not required. The code solves the full Maxwell equations (including the displacement current), does not require assumptions of Ohm’s law and of Spitzer resistivity and does not require the background distributions to be Maxwellian. The thesis begins with summaries of the background theory and of the previous work performed in this area. The PIC method is then discussed and the way in which collisions were added to EPOCH is outlined. The results from several collisional PIC simulations with different target Z values are then discussed and com- pared to both collisionless PIC simulation results and hybrid simulation results. The effects of collisions have then been examined by looking into numerous aspects of the simulations that have been performed. Firstly, the generation of fields within the plasma and the subsequent filamentation of the fast electron beam are examined. The effects that the collisions have on the electron distributions within the plasma are then investigated with particular attention given to the divergence of the fast electrons, the energy and momentum distributions of the electrons and the background temperatures within the plasma. Finally, the results of the simulations are used to assess the accuracy of the Spitzer resistivity approximation that is used in hybrid codes.530Imperial College Londonhttp://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.616741http://hdl.handle.net/10044/1/14280Electronic Thesis or Dissertation
collection NDLTD
sources NDLTD
topic 530
spellingShingle 530
Lloyd, Rhys David
Collisional particle in cell modelling of the propagation of fast electrons in solid density plasma
description This thesis looks at the effects that electron-ion Coulomb collisions have on fast electron transport in solid density plasma. The study of the fast electrons generated in ultra-high intensity laser-plasma interactions is important due to their envisioned use in the fast ignition approach to inertial confinement fusion. Collisions have been added to the particle-in-cell (PIC) code EPOCH in order to study the propagation of fast electron beams in various solid density targets. By using a collisional PIC model several of the assumptions used in previous studies are not required. The code solves the full Maxwell equations (including the displacement current), does not require assumptions of Ohm’s law and of Spitzer resistivity and does not require the background distributions to be Maxwellian. The thesis begins with summaries of the background theory and of the previous work performed in this area. The PIC method is then discussed and the way in which collisions were added to EPOCH is outlined. The results from several collisional PIC simulations with different target Z values are then discussed and com- pared to both collisionless PIC simulation results and hybrid simulation results. The effects of collisions have then been examined by looking into numerous aspects of the simulations that have been performed. Firstly, the generation of fields within the plasma and the subsequent filamentation of the fast electron beam are examined. The effects that the collisions have on the electron distributions within the plasma are then investigated with particular attention given to the divergence of the fast electrons, the energy and momentum distributions of the electrons and the background temperatures within the plasma. Finally, the results of the simulations are used to assess the accuracy of the Spitzer resistivity approximation that is used in hybrid codes.
author2 Kingham, Robert ; Evans, Roger
author_facet Kingham, Robert ; Evans, Roger
Lloyd, Rhys David
author Lloyd, Rhys David
author_sort Lloyd, Rhys David
title Collisional particle in cell modelling of the propagation of fast electrons in solid density plasma
title_short Collisional particle in cell modelling of the propagation of fast electrons in solid density plasma
title_full Collisional particle in cell modelling of the propagation of fast electrons in solid density plasma
title_fullStr Collisional particle in cell modelling of the propagation of fast electrons in solid density plasma
title_full_unstemmed Collisional particle in cell modelling of the propagation of fast electrons in solid density plasma
title_sort collisional particle in cell modelling of the propagation of fast electrons in solid density plasma
publisher Imperial College London
publishDate 2013
url http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.616741
work_keys_str_mv AT lloydrhysdavid collisionalparticleincellmodellingofthepropagationoffastelectronsinsoliddensityplasma
_version_ 1718465547251744768