L.J. Lorence scite author profile

CEPXS/ONELD is the only discrete ordinates code capable of modelling the fully-coupled electron-photon cascade at high energies. Quantities that are related to the particle flux such as dose and charge deposition can readily be obtained. This deterministic code is much faster than comparable Monte Carlo codes. The unique adjoint transport capability of CEPXS/ONELD also enables response functions to be readily calculated. Version 2.0 of the CEPXS/ONELD code package has been designed to allow users who are not expert in discrete ordinates methods 4o fully exploit the code's capabilities. I.

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Comparison of enhanced device response and predicted X-ray dose enhancement effects on MOS oxides

Fleetwood

Beutler

Lorence

et al. 1988

IEEE Trans. Nucl. Sci.

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The Response of MOS Devices to Dose-Enhanced Low-Energy Radiation

Fleetwood

Winokur

Lorence

et al. 1986

IEEE Trans. Nucl. Sci.

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Voltage monitors for high-power 10–20 MV pulsed electron accelerators

Sanford

Halbleib

Lorence

et al. 1992

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Four monitoring techniques that can determine peak voltage (Vp) to a precision of ∼5% for high-intensity, pulsed electron accelerators operating in the 10 to 20 MV range are discussed and applied to the 14-TW HERMES III accelerator. The techniques utilize parapotential flow theory, the range of H− ions, the bremsstrahlung from electron interactions with an electron target, and the photoneutron fluence from neutrons generated in a bremsstrahlung target. Application of these techniques to HERMES III shows that when the accelerator is operating under nominal conditions, Vp=(18.7±0.7) MV.

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L.J. Lorence

Physics guide to CEPXS: A multigroup coupled electron-photon cross-section generating code

CEPXS/ONELD version 2.0: a discrete ordinates code package for general one-dimensional coupled electron-photon transport

Comparison of enhanced device response and predicted X-ray dose enhancement effects on MOS oxides

The Response of MOS Devices to Dose-Enhanced Low-Energy Radiation

Voltage monitors for high-power 10–20 MV pulsed electron accelerators

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