Physical Review Accelerators and Beams (Jul 2016)

Conceptual design of a 10^{13}-W pulsed-power accelerator for megajoule-class dynamic-material-physics experiments

  • W. A. Stygar,
  • D. B. Reisman,
  • B. S. Stoltzfus,
  • K. N. Austin,
  • T. Ao,
  • J. F. Benage,
  • E. W. Breden,
  • R. A. Cooper,
  • M. E. Cuneo,
  • J.-P. Davis,
  • J. B. Ennis,
  • P. D. Gard,
  • G. W. Greiser,
  • F. R. Gruner,
  • T. A. Haill,
  • B. T. Hutsel,
  • P. A. Jones,
  • K. R. LeChien,
  • J. J. Leckbee,
  • S. A. Lewis,
  • D. J. Lucero,
  • G. R. McKee,
  • J. K. Moore,
  • T. D. Mulville,
  • D. J. Muron,
  • S. Root,
  • M. E. Savage,
  • M. E. Sceiford,
  • R. B. Spielman,
  • E. M. Waisman,
  • M. L. Wisher

DOI
https://doi.org/10.1103/PhysRevAccelBeams.19.070401
Journal volume & issue
Vol. 19, no. 7
p. 070401

Abstract

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We have developed a conceptual design of a next-generation pulsed-power accelerator that is optimized for megajoule-class dynamic-material-physics experiments. Sufficient electrical energy is delivered by the accelerator to a physics load to achieve—within centimeter-scale samples—material pressures as high as 1 TPa. The accelerator design is based on an architecture that is founded on three concepts: single-stage electrical-pulse compression, impedance matching, and transit-time-isolated drive circuits. The prime power source of the accelerator consists of 600 independent impedance-matched Marx generators. Each Marx comprises eight 5.8-GW bricks connected electrically in series, and generates a 100-ns 46-GW electrical-power pulse. A 450-ns-long water-insulated coaxial-transmission-line impedance transformer transports the power generated by each Marx to a system of twelve 2.5-m-radius water-insulated conical transmission lines. The conical lines are connected electrically in parallel at a 66-cm radius by a water-insulated 45-post sextuple-post-hole convolute. The convolute sums the electrical currents at the outputs of the conical lines, and delivers the combined current to a single solid-dielectric-insulated radial transmission line. The radial line in turn transmits the combined current to the load. Since much of the accelerator is water insulated, we refer to it as Neptune. Neptune is 40 m in diameter, stores 4.8 MJ of electrical energy in its Marx capacitors, and generates 28 TW of peak electrical power. Since the Marxes are transit-time isolated from each other for 900 ns, they can be triggered at different times to construct–over an interval as long as 1 μs–the specific load-current time history required for a given experiment. Neptune delivers 1 MJ and 20 MA in a 380-ns current pulse to an 18-mΩ load; hence Neptune is a megajoule-class 20-MA arbitrary waveform generator. Neptune will allow the international scientific community to conduct dynamic equation-of-state, phase-transition, mechanical-property, and other material-physics experiments with a wide variety of drive-pressure time histories.