Neutron Slowing Down and Thermalization

ln E_i ln E_f ln E_i E_f 2 A 2 3 NEUTRON MODERATION DOE-HDBK-1019/1-93 Reactor Theory (Neutron Characteristics) NP-02 Page 24 Rev. 0 The ideal moderating material (moderator) should have the following nuclear properties. large scattering cross section small absorption cross section large energy loss per collision A convenient measure of energy loss per collision is the logarithmic energy decrement. The average logarithmic energy decrement is the average decrease per collision in the logarithm of the neutron energy. This quantity is represented by the symbol (Greek letter xi). (2-8) where: = average logarithmic energy decrement E = average initial neutron energy i E = average final neutron energy f The symbol is commonly called the average logarithmic energy decrement because of the fact that a neutron loses, on the average, a fixed fraction of its energy per scattering collision. Since the fraction of energy retained by a neutron in a single elastic collision is a constant for a given material, is also a constant. Because it is a constant for each type of material and does not depend upon the initial neutron energy, is a convenient quantity for assessing the moderating ability of a material. The values for the lighter nuclei are tabulated in a variety of sources. The following commonly used approximation may be used when a tabulated value is not available. This approximation is relatively accurate for mass numbers (A) greater than 10, but for some low values of A it may be in error by over three percent.