An Experiment on Electron Beam Transport in an Array of Wires

Abstract

We have investigated experimentally the propagation of a relativistic electron beam through an array of parallel conducting wires. Theory and particle simulation predict such an array will provide both charge and current neutralization, allowing beam transport above the drift tube limit. We injected a 60ns, 17kA (120A/cm2 ) pulse of 1.4 MeV electrons into an array of 1m long wires spaced 1 cm apart, filling a hexagon 15 cm across. Arrays have been tested with 12 mil diameter copper wire, 3 mil stainless steel wire, and 12 mil copper wires terminating on an insulated, segmented beam dump. B probes and streak camera data show that 67% of the current is transported in the case of the stainless steel array. The copper wire array transported electrons for 20 ns only. The beam is injected with a 250 mrad divergence, and the transported beam has a divergence of less than 100 mrad. Follow-up experiments are to use thinner wires to improve both the propagation and divergence of the beam.

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Document Details

Document Type
Technical Report
Publication Date
Jun 01, 1989
Accession Number
ADA635183

Entities

People

  • J. Denavit
  • M. S. Dicapua
  • P. W. Rambo
  • R. A. Richardson

Organizations

  • Lawrence Livermore National Laboratory

Tags

Communities of Interest

  • Energy and Power Technologies

DTIC Thesaurus Topics

  • Backscattering
  • Cameras
  • Diameters
  • Electron Beams
  • Electron Energy
  • Electrons
  • Energy
  • Field Emission
  • Magnetic Fields
  • Measurement
  • Segmented
  • Simulations
  • Stainless Steel
  • Steel
  • Streak Cameras
  • Transport Ships
  • Vacuum Chambers

Fields of Study

  • Physics

Readers

  • Electromagnetic Wave Scattering and Antenna Radiation Engineering
  • Pulsed Power and Plasma Physics.

Technology Areas

  • Directed Energy
  • Directed Energy - Pulsed-Laser Deposition
  • Microelectronics
  • Space
  • Space - Hall-Effect Thruster