Nuclear Technology and Radiation Protection (Jan 2023)

Power law quantities based on the distributions of time intervals between successive neutron counts

  • Avdić Senada,
  • Kunosić Suad,
  • Demirović Damir,
  • Sakić Zerina,
  • Hadžimustafić Edin

DOI
https://doi.org/10.2298/NTRP2304246A
Journal volume & issue
Vol. 38, no. 4
pp. 246 – 252

Abstract

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This study deals with the unfolded quantities based on the time intervals between successive neutron events from the aspect of the power law. Neutrons from spontaneous fission in special nuclear material induce fission in most cases. In this study, it was demonstrated that the inverse value of the number of induced neutrons decreases following a power function with the increasing radius of a plutonium metal sphere. In addition, it was considered an increase in the neutron background level with increasing altitudes. The inverse value of the mean neutron counting rate depending on altitudes can be described with a power function merely for higher elevations. A linear relationship was obtained by plotting the quantities on logarithmic axes against each other indicating generally a power law relationship for both investigated phenomena. The results of this study showed a connection between two seemingly unrelated neutron phenomena through power laws based on the distributions of time intervals between successive neutron counts. The empirical evidence implies that a connection between the observed quantities in a log-log plot is unchanged except for a multiplicative constant.

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