Experimental study of the evaporation and expansion of a solid pellet in a plasma heated by an electron beam

Results are presented from experiments on the injection of solid pellets into a plasma heated by an electron beam in the GOL-3 device. For this purpose, two pellet injectors were installed in the device. The target plasma with a density of similar to10(15) cm(-3) was produced in a solenoid with a field of 4.8 T and was heated by a high-power electron beam with an electron energy of similar to1 MeV, a duration of similar to7 mus, and a total energy of 120-150 kJ. Before heating, the pellet was injected into the center of the plasma column transversely to the magnetic field. The injection point was located at a distance of 6.5 or 2 m from the input magnetic mirror. Polyethylene pellets with a mass of 0.1-1 mg and lithium-deuteride pellets with a mass of 0.02-0.5 mg were used. A few microseconds after the electron beam starts to be injected into the plasma, a dense plasma bunch is formed. In the initial stage of expansion, the plasma bunch remains spherically symmetric. The plasma at the periphery of the bunch is then heated and becomes magnetized. Next, the dense plasma expands along the magnetic field with a velocity on the order of 300 km/s. A comparison of the measured parameters with calculations by a hydrodynamic model shows that, in order to provide such a high expansion velocity, the total energy density deposited in the. This value substantially exceeds the energy density yielded by the target plasma; i.e., pellet must be similar to1 kJ/cm(2) the energy is concentrated across the magnetic field onto a dense plasma bunch produced from the evaporated particle. (C) 2004 MAIK "Nauka/Interperiodica".