Title :
Dense plasma focus Z-pinches for high gradient particle acceleration
Author :
Tang, V. ; Adams, M.L. ; Rusnak, B.
Author_Institution :
Lawrence Livermore Nat. Lab., Livermore, CA, USA
Abstract :
Summary form only given. Dense Plasma Focus (DPF) experiments emit intense ~MeV level ion and electron beams, as well as X-rays and D-D neutrons that persist for ~100 ns. Although DPFs are traditionally operated as neutron or X-ray sources, in this talk we examine the possibility of using the experimentally observed ~MV/cm gradients for a high-gradient accelerator. A simple capacitor driven DPF model and acceleration mechanisms are discussed along with available experimental beam data. An ~MV level high-gradient DPF accelerator has application for compact and rugged radiological sources. If scalable to higher energies, the DPF accelerator might provide a unique and cost-effective general plasma-based accelerator technology.
Keywords :
Z pinch; plasma accelerators; plasma focus; D-D neutrons; DPF Z pinch; X-rays; acceleration mechanisms; capacitor driven DPF model; dense plasma focus; experimental beam data; high gradient accelerator; high gradient particle acceleration; megaelectron-volt electron beams; megaelectron-volt ion beams; plasma based accelerator technology; Acceleration; Capacitors; Electron beams; Ion accelerators; Linear particle accelerator; Neutrons; Plasma accelerators; Plasma density; Plasma sources; Plasma x-ray sources;
Conference_Titel :
Plasma Science - Abstracts, 2009. ICOPS 2009. IEEE International Conference on
Conference_Location :
San Diego, CA
Print_ISBN :
978-1-4244-2617-1
DOI :
10.1109/PLASMA.2009.5227611
