Abstract :
Different methods for generating strong pulsed magnetic fields are briefly discussed with a view to applications in experimental physics. The methods described involve: wire-wound coils (<70 T, 10 ms -1 ms), solid and polyhelix coils (<100 T, approximately=1 ms), destructive single-turn coils ( approximately=300 T, approximately=2 mu s), magnetic-flux-compression techniques (<1000 T, approximately=1 mu s), and laser-generated hot electrons ( approximately=104 T, approximately=1 ns). For nondestructive coils, the peak field depends essentially on the strength of the conductor material. Megagauss systems are characterized by a typical speed on the order of several km/s which is directly related to the field and determines the longest-possible pulse duration.
Keywords :
coils; magnetic fields; magnetic flux; Megagauss systems; laser-generated hot electrons; longest-possible pulse duration; magnetic-flux-compression techniques; nondestructive coils; polyhelix coils; pulsed high field magnets; single-turn coils; wire-wound coils; Coils; Conducting materials; Electrons; Laser theory; Magnetic fields; Magnetic materials; Magnets; Physics; Pulse generation; Solid lasers;
