In this page

Characterization of laser-produced fast electron source for integrated simulation of fast ignition

Debayle, Arnaud Philippe Henri and Honrubia Checa, José Javier and D’Humières, E. and Tikhonchuk, V. (2010). Characterization of laser-produced fast electron source for integrated simulation of fast ignition. In: "37th EPS Conference on Plasma Physics, European physical society", 21/06/2010 - 25/06/2010, Dublin, Irlanda. ISBN ISSN: 0741-3335.

Description

Title: Characterization of laser-produced fast electron source for integrated simulation of fast ignition
Author/s:
  • Debayle, Arnaud Philippe Henri
  • Honrubia Checa, José Javier
  • D’Humières, E.
  • Tikhonchuk, V.
Item Type: Presentation at Congress or Conference (Article)
Event Title: 37th EPS Conference on Plasma Physics, European physical society
Event Dates: 21/06/2010 - 25/06/2010
Event Location: Dublin, Irlanda
Title of Book: Proceedings of the 37th EPS Conference on Plasma Physics, European physical society
Date: 2010
ISBN: ISSN: 0741-3335
Subjects:
Faculty: E.T.S.I. Aeronáuticos (UPM)
Department: Física Aplicada a la Ingeniería Aeronáutica [hasta 2014]
Creative Commons Licenses: Recognition - No derivative works - Non commercial

Full text

[thumbnail of INVE_MEM_2010_77378.pdf]
Preview
 PDF - Requires a PDF viewer, such as GSview, Xpdf or Adobe Acrobat Reader
Download (67kB) | Preview

Abstract

Relativistic electron currents (∼ 10 kA µm−2) are produced by focusing an intense laser beam (I ≥ 1019W cm−2) on a solid target. Based on this mechanism, an original inertial confinement fusion scheme has been proposed which consists in heating the compressed deuterium-tritium core with a laser-produced electron beam. Experimentally the fast electron source is not well characterized and simulations of both electron generation and transport remain a difficult task. Generally, transport codes are used with a simplified fast electron source as initial condition. The fast electron spectrum is assumed to be exponential with an adjustable temperature, and the divergence is characterized by a dispersion angle. To verify these assumptions, we have performed a characterization of the laser-driven fast electron source by means of PIC simulations [1] in the cases of a planar foil and a double cone.

More information

Item ID: 7569
DC Identifier: https://oa.upm.es/7569/
OAI Identifier: oai:oa.upm.es:7569
Official URL: http://www.eps2010.com/
Deposited by: Memoria Investigacion
Deposited on: 06 Jul 2011 13:29
Last Modified: 20 Apr 2016 16:40
  • Logo InvestigaM (UPM)
  • Logo GEOUP4
  • Logo Open Access
  • Open Access
  • Logo Sherpa/Romeo
    Check whether the anglo-saxon journal in which you have published an article allows you to also publish it under open access.
  • Logo Dulcinea
    Check whether the spanish journal in which you have published an article allows you to also publish it under open access.
  • Logo de Recolecta
  • Logo del Observatorio I+D+i UPM
  • Logo de OpenCourseWare UPM

Archivo Digital UPM is the institutional digital repository maintained by the Library at the Universidad Politécnica de Madrid. Developed and maintained in EPrints.

Syndication: Atom, RSS 2.0 and RSS 1.0 (HTML)
Harvesting: OAI 2.0