Photoneutron Production Using Bremsstrahlung from the 14-TW Pulsed-Power HERMES III Electron Accelerator

T. W. L. Sanford; L. J. Lorence; J. A. Halbleib; J. G. Kelly; P. J. Griffin; J. W. Poukey; W. H. McAtee; R. C. Mock

doi:dx.doi.org/10.13182/NSE93-A24033

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Home / Publications / Journals / Nuclear Science and Engineering / Volume 114 / Number 3

Photoneutron Production Using Bremsstrahlung from the 14-TW Pulsed-Power HERMES III Electron Accelerator

T. W. L. Sanford, L. J. Lorence, J. A. Halbleib, J. G. Kelly, P. J. Griffin, J. W. Poukey, W. H. McAtee, R. C. Mock

Nuclear Science and Engineering / Volume 114 / Number 3 / July 1993 / Pages 190-213

Technical Paper / dx.doi.org/10.13182/NSE93-A24033

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An intense reusable source of pulsed photoneutrons is developed that produces ≈0.5 or 1.0 × 10¹⁴ neutrons in an ∼15-ns pulse from natural lead or depleted uranium, respectively, on the HERMES III electron accelerator. Corresponding to this source, a numerical model is developed that is applicable to other pulsed-power systems. If V_p represents the peak voltage of HERMES III measured in megavolts, then model predictions show that over the range 12 MV < V_p< 20 MV, the number of neutrons produced per incident electron is 7.2 × 10^-6(V_P — 11)^2.0 and 1.2 × 10^-6(V_P — 7.4)^{2 8} in lead and uranium, respectively. Measurements using a set of nuclear activation foils confirm these predictions as well as predictions of the spatial and spectral distribution of the neutrons at V_p = 19 MV.