Title :
Conical electric gun: a new hypervelocity macroparticle launcher based on the Munroe effect
Author :
Auluck, S.K.H. ; Kaushik, Trilok C. ; Kulkarni, L.V. ; Rav, Amit S.
Author_Institution :
Atomic & Condensed Matter Phys. Group, Bhabha Atomic Res. Center, Mumbai, India
Abstract :
The Munroe effect is a cumulative hydrodynamic flow where a conically shaped solid liner is imploded on to its axis of symmetry and the oblique impact results in formation of a hypervelocity jet. Acceleration of conical liners using chemical explosives has been well known in armament technology and acceleration using laser ablation is being investigated in connection with inertial confinement fusion. In this paper, we discuss the acceleration of a solid liner using an electrically exploded conductor in the fashion of an electric gun. Fabrication methods and experimental investigations using fast framing photography are described. Scaling behavior expected from such flows is derived in a simple, approximate model. Possible applications are described.
Keywords :
electron guns; exploding wires; plasma diagnostics; plasma inertial confinement; plasma production by laser; Gurney energy; Munroe effect; approximate model; chemical explosives; conical electric gun; conical liners; conically shaped solid liner; cumulative hydrodynamic flow; electrically exploded conductor; exploding foils; fabrication methods; fast framing photography; hypervelocity jet; hypervelocity macroparticle launcher; inertial confinement fusion; jets; laser ablation; oblique impact results; Acceleration; Chemical lasers; Chemical technology; Conductors; Explosives; Hydrodynamics; Inertial confinement; Laser ablation; Laser fusion; Optical device fabrication;
Journal_Title :
Plasma Science, IEEE Transactions on
DOI :
10.1109/TPS.2003.815813
