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Monte Carlo simulations for the optimization and data analysis of experiments with ultracold neutrons

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arxiv 1806.10778 v1 pith:UH5XL36V submitted 2018-06-28 physics.ins-det physics.comp-phphysics.data-an

Monte Carlo simulations for the optimization and data analysis of experiments with ultracold neutrons

classification physics.ins-det physics.comp-phphysics.data-an
keywords experimentsanalysiscarlocodesimportantmonteneutronneutrons
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Ultracold neutrons (UCN) with kinetic energies up to 300 neV can be stored in material or magnetic confinements for hundreds of seconds. This makes them a very useful tool for probing fundamental symmetries of nature, by searching for charge-parity violation by a neutron electric dipole moment, and yielding important parameters for Big Bang nucleosynthesis, e.g. in neutron-lifetime measurements. Further increasing the intensity of UCN sources is crucial for next-generation experiments. Advanced Monte Carlo (MC) simulation codes are important in optimization of neutron optics of UCN sources and of experiments, but also in estimation of systematic effects, and in bench-marking of analysis codes. Here we will give a short overview of recent MC simulation activities in this field.

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