Characterizing scintillator detector response for correlated fission experiments with MCNP and associated packages
When multiple neutrons are emitted in a fission event they are correlated in both energy and their relative angle, which may impact the design of safeguards equipment and other instrumentation for non-proliferation applications. The most recent release of MCNP6.2 contains the capability to simulate...
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| Published in | Radiation physics and chemistry (Oxford, England : 1993) Vol. 155; pp. 217 - 220 |
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| Main Authors | , , , , , , , |
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| Abstract | When multiple neutrons are emitted in a fission event they are correlated in both energy and their relative angle, which may impact the design of safeguards equipment and other instrumentation for non-proliferation applications. The most recent release of MCNP6.2 contains the capability to simulate correlated fission neutrons using the event generators CGMF and FREYA. These radiation transport simulations will be post-processed by the detector response code, DRiFT, and compared directly to correlated fission measurements. DRiFT has been previously compared to single detector measurements, its capabilities have been recently expanded with correlated fission simulations in mind. This paper details updates to DRiFT specific to correlated fission measurements, including tracking source particle energy of all detector events (and non-events), expanded output formats, and digitizer waveform generation.
•MCNP6.2 includes the correlated fission event generators CGMF and FREYA.•MCNP and associated packages DRiFT and MCNPTools are used to simulate scintillator measurements of correlated fission.•DRiFT detector response capabilities have been expanded for correlated fission simulations.•New capabilities in DRiFT include tracking source particle information, expanded output formats and digitizer waveform generation. |
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| AbstractList | When multiple neutrons are emitted in a fission event they are correlated in both energy and their relative angle, which may impact the design of safeguards equipment and other instrumentation for non-proliferation applications. The most recent release of MCNP. 2 contains the capability to simulate correlated fission neutrons using the event generators CGMF and FREYA. These radiation transport simulations will be post-processed by the detector response code, DRiFT, and compared directly to correlated fission measurements. has been previously compared to single detector measurements, its capabilities have been recently expanded with correlated fission simulations in mind. This paper details updates to DRiFT specific to correlated fission measurements, including tracking source particle energy of all detector events (and non-events), expanded output formats, and digitizer waveform generation. When multiple neutrons are emitted in a fission event they are correlated in both energy and their relative angle, which may impact the design of safeguards equipment and other instrumentation for non-proliferation applications. The most recent release of MCNP6.2 contains the capability to simulate correlated fission neutrons using the event generators CGMF and FREYA. These radiation transport simulations will be post-processed by the detector response code, DRiFT, and compared directly to correlated fission measurements. DRiFT has been previously compared to single detector measurements, its capabilities have been recently expanded with correlated fission simulations in mind. This paper details updates to DRiFT specific to correlated fission measurements, including tracking source particle energy of all detector events (and non-events), expanded output formats, and digitizer waveform generation. •MCNP6.2 includes the correlated fission event generators CGMF and FREYA.•MCNP and associated packages DRiFT and MCNPTools are used to simulate scintillator measurements of correlated fission.•DRiFT detector response capabilities have been expanded for correlated fission simulations.•New capabilities in DRiFT include tracking source particle information, expanded output formats and digitizer waveform generation. |
| Author | Talou, P. Rising, M.E. Sood, A. McKigney, E.A. Bates, C.R. Meierbachtol, K. Andrews, M.T. Solomon, C.J. |
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| Cites_doi | 10.1016/j.nima.2003.06.012 10.1016/0168-9002(87)90292-0 10.1016/0029-554X(79)90417-8 10.1140/epja/i2018-12455-0 10.1016/0029-554X(68)90003-7 10.2172/1086758 10.1016/j.phpro.2013.06.007 10.1142/9789814525435_0048 10.1016/j.cpc.2011.02.008 10.1016/j.nima.2016.06.011 10.1103/PhysRevC.80.024601 |
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| SubjectTerms | Analog to digital converters Correlated fission Correlation analysis Digitization DRiFT Emissions Fission MCNP Neutrons Particle energy Radiation Radiation transport Scintillation counters Scintillator Simulation |
| Title | Characterizing scintillator detector response for correlated fission experiments with MCNP and associated packages |
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