Delayed-Gamma Simulation Using MCNPX

Joe W. Durkee, Jr.; Gregg W. McKinney; Holly R. Trellue; Laurie S. Waters; William B. Wilson

doi:dx.doi.org/10.13182/NT09-A9302

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Delayed-Gamma Simulation Using MCNPX

Joe W. Durkee, Jr., Gregg W. McKinney, Holly R. Trellue, Laurie S. Waters, William B. Wilson

Nuclear Technology / Volume 168 / Number 3 / December 2009 / Pages 761-764

MC Calculations / Special Issue on the 11th International Conference on Radiation Shielding and the 15th Topical Meeting of the Radiation Protection and Shielding Division (PART 3) / Radiation Protection / dx.doi.org/10.13182/NT09-A9302

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Monitoring issues related to activation and fission processes occur in many health physics, instrumentation and equipment design, nuclear forensics, and homeland security applications. Gamma radiation that is emitted during these processes as a result of the radioactive decay of reaction by-products [delayed gammas (DGs)] provides unique signatures that are useful for interrogation and information acquisition. Thus, it is of compelling interest to have a simulation tool that can be used to conduct studies to provide insights into the activation and fission processes. Beginning with version 2.5.0, MCNPX has been undergoing major upgrades to facilitate DG simulations. We illustrate the upgrades for a simple multiparticle reaction model involving ⁶⁰Ni and for ²³⁵U photofission caused by 12-MeV photons.