论文信息 - Conceptual engineering of plasma-focus thermonuclear pulsors

Conceptual engineering of plasma-focus thermonuclear pulsors

The basic engineering criteria for conceptual design of plasma focus devices is derived from a thermonuclear model, and applied successfully to the operation of small neutron pulsors. The theory is able to explain the variation of the neutron yield with the gas pressure in deuterium-filled chambers, the current evolution, and the electrode geometrical parameters. The performance of a prototype designed to optimize the flux/fluence ratio is presented, contrasting the experimental outcomes with the model. A set of effective design parameters is deduced, which ensure a band confidence of 20%.

[1] H. Conrads. Dense plasma focus as a neutron source for fusion research , 1990 .

[2] J. Mather. Investigation of the High‐Energy Acceleration Mode in the Coaxial Gun , 1964 .

[3] G. Murtaza,et al. ROLE OF ANODE LENGTH IN A MATHER-TYPE PLASMA FOCUS , 1992 .

[4] N. V. Filippov,et al. DENSE HIGH-TEMPERATURE PLASMA IN A NON-CYLINDRICAL Z-PINCH COMPRESSION , 1962 .

[5] A. Bernard,et al. The dense plasma focus — A high intensity neutron source , 1977 .

[6] G. Decker,et al. Plasma focus devices , 1976 .

[7] D. Potter. NUMERICAL STUDIES OF THE PLASMA FOCUS. , 1971 .

[8] H. Bruzzone,et al. Structure of a plane and stationary ionizing current sheath , 1984 .