Variable-pulse-shape pulsed-power accelerator

We claim: 1. A variable-pulse-shape pulsed-power accelerator, comprising: a plurality of low-inductance LC drive circuits that can be charged to a high voltage and be independently triggered to provide a plurality of power pulses; a coaxial transmission line for each of the LC drive circuits that receives the power pulse from the LC drive circuit and are sufficiently long to transit time isolate each of the power pulses from the plurality of other power pulses; and a central-power-flow section comprising: at least two water-insulated radial transmission lines that receive and combine the plurality of transit-time isolated power pulses from each of the coaxial transmission lines to form a radially converging power pulse; and a water-insulated post-hole convolute that connects the at least two water-insulated radial transmission lines in parallel at small radius to provide a variable shaped power pulse to a load. 2. The accelerator of claim 1 , wherein each LC drive circuit comprises at least one brick, wherein each brick comprises two capacitors charged to opposite polarities with a triggered switch between the high voltage outputs of the two capacitors. 3. The accelerator of claim 2 , wherein the LC drive circuits are stacked in brick towers comprising two or more vertically stacked bricks. 4. The accelerator of claim 2 , wherein each LC drive circuit comprises a Marx generator comprising two or more bricks connected electrically in series. 5. The accelerator of claim 4 , wherein the Marx generator is impedance matched to the input impedance of the coaxial transmission line. 6. The accelerator of claim 1 , wherein the coaxial transmission line comprises one or more coaxial cables for each of the low-inductance LC drive circuits. 7. The accelerator of claim 6 , wherein the coaxial cables comprise an inner and an outer conductor with ceramic-nanoparticle loaded polyethylene insulation therebetween. 8. The accelerator of claim 6 , wherein the coaxial cables comprise an inner and an outer conductor with deionized water insulation therebetween. 9. The accelerator of claim 1 , wherein the input of each of the coaxial transmission lines is impedance matched to the output of each of the LC drive circuits. 10. The accelerator of claim 1 , wherein the coaxial transmission line comprises a water-insulated coaxial transmission-line impedance transformer having impedance that varies with distance along the line. 11. The accelerator of claim 10 , wherein the output impedance of the water-insulated coaxial transmission-line impedance transformer is impedance matched to the input of the water-insulated radial transmission lines. 12. The accelerator of claim 1 , wherein the at least two water-insulated radial transmission lines comprises four water-insulated radial transmission lines. 13. The accelerator of claim 12 , wherein the four water-insulated radial transmission lines are connected by in parallel by a water-insulated double post-hole convolute. 14. The accelerator of claim 1 , wherein the at least two water-insulated radial transmission lines comprises eight water-insulated radial transmission lines. 15. The accelerator of claim 14 , wherein the eight water-insulated radial transmission lines are connected by in parallel by a water-insulated quadrupole post-hole convolute. 16. The accelerator of claim 1 , wherein the load comprises a shorting current contact adapted so that the magnetic pressure of the variable shaped power pulse provides a ramped pressure pulse to a material sample.