Plasma-gun voltage generator

Abstract

The Plasma-Gun Voltage-Generator (PVG) uses a pulsed plasma-flow to displace magnetic flux, thereby inducing high voltages across multi-turn coils. Typical operating parameters are voltages of 0.5 to 1 MV, pulsetimes in the microsecond regime and output impedances in the few Ohm range. The use of capacitor-bank sources to drive the plasma-gun discharge permits repetitive operation of the PVG at rates of several kHz. The PVG includes 1) a coaxial plasma-gun that serves as a source high speed, electrically-conducting plasma; 2) a source of axial magnetic field; and 3) a multi-turn coil or set of multi-turn coils that will experience an induced voltage when plasma flow displaces magnetic flux from the region interior to the coil(s). The magnetic flux source and the multi-turn coil(s) are placed near the end of the coaxial gun to receive the high speed plasma flow. The coaxial plasma-gun provides an axisymmetric discharge between coaxial electrodes. Interaction of the discharge current with its azimuthal magnetic field accelerates plasma axially downstream (after an initiation phase that may involve an inverse-pinch discharge). Axial plasma flow at speeds of 50-100 km/s is sufficient to displace magnetic flux at the end of the gun. Such displacement past the multi-turn coil induces high voltages between the ends of the coil(s). These voltages can then be used to drive a high impedance load, such as an electron-beam diode.