论文信息 - Ignition conditions for magnetized target fusion in cylindrical geometry

Ignition conditions for magnetized target fusion in cylindrical geometry

Ignition conditions in axially magnetized cylindrical targets are investigated by examining the thermal balance of assembled DT fuel configurations at stagnation. Special care is taken to adequately evaluate the energy fraction of 3.5 MeV alpha particles deposited in magnetized DT cylinders. A detailed analysis of the ignition boundaries in the ρR,T parametric plane is presented. It is shown that the fuel magnetization allows a significant reduction of the ρR ignition threshold only when the condition BR 6 × 105G cm is fulfilled (B is the magnetic field strength and R is the fuel radius).

[1] V. Rozanov,et al. Energy transfer by α particles in a laser plasma subjected to a magnetic field , 1984 .

[2] R. D. Jones,et al. The physics of burn in magnetized deuterium-tritium plasmas: spherical geometry , 1986 .

[3] Ronald C. Kirkpatrick,et al. Magnetized Target Fusion: An Overview , 1995 .

[4] I. Lindemuth,et al. Parameter space for magnetized fuel targets in inertial confinement fusion , 1983 .

[5] D. Kilcrease,et al. Magnetized fuel inertial confinement fusion , 1988 .

[6] R. J. Mason,et al. Thermonuclear burn characteristics of compressed deuterium‐tritium microspheres , 1974 .

[7] B. Sharkov,et al. Magnetized deuterium targets in heavy ion fusion , 1996 .

[8] A. Velikovich,et al. Distribution function and diffusion of α-particles in DT fusion plasma , 1984, Journal of Plasma Physics.

[9] Magnetized deuterium fuel experiment in HIF project , 1998 .

[10] O. N. Krokhin,et al. ESCAPE OF α PARTICLES FROM A LASER-PULSE-INITIATED THERMONUCLEAR REACTION , 1973 .

[11] A. Farnsworth,et al. High-gain, low-intensity ICF targets for a charged-particle beam fusion driver , 1981 .