Oh. Oh. The critical mass of Curium-245 with SS-304 reflector is just 4.73 kg, r = 4.7 cm.

The American National Standard for Nuclear Criticality Control of Special Actinide Elements, ANSI/ANS-8.15- 1981,1) has been reviewed for revision by a working group chaired by Norman L. Pruvost since 1996.2) The standard was intended to provide criticality safety guidance for fissionable actinides other than the so called “big three” actinides, ²³³U, ²³⁵U and ²³⁹Pu, that have been traditionally discussed by the ANSI/ANS-8.1Working Group. The ANSI/ANS-8.15Working Group was arranged to consist of five US members and four non-US members, who are from France, Japan, Russia, and UK. One of the authors of this paper (HO) has been the Japanese member of the group since 1997, to whom at first three curium isotopes were assigned: ²⁴⁶Cm for inclusion, and ²⁴⁵Cm and ²⁴⁷Cm for revision...

...Present authors, therefore, calculated critical and subcritical masses of ²⁴⁵Cm, ²⁴⁶Cm and ²⁴⁷Cm to accomplish the task.12) In addition to the requested three curium isotopes, they recently made calculation for ²⁴³Cm and ²⁴⁴Cm as a part of ten fissionable nuclides that had comparable critical masses to that of ²³⁵U.13) The critical and subcritical masses of the curium isotopes were calculated as precisely as possible by using modern computational tools and the most recently published evaluated nuclear data files for standardizing these quantities in reference to the previous data. Based on the present and previously obtained critical mass values subcritcal mass limits were recommended to the ANS-8.15Working Group and the values were discussed by its members...

An example of the relation between the radius of a fuel sphere and the calculated neutron multiplication factor k_eff is shown in Fig. 1 for ²⁴⁵Cm metal without reflectors. This figure illustrates how to obtain the radii of fuel sphere, 6.00, 5.35 and 4.72 cm, corresponding to k_eff =1, 0.9 and 0.8, respectively, from the fitted curve. The critical mass was derived
as 12.3 kg Cm, and the subcritical masses corresponding to k_eff =0.9 and 0.8 were determined to be 8.71 and 5.99 kg Cm, respectively, by multiplying the fuel density 13.57 gCm/cm3 to the corresponding volumes (see Eq. (2)). (1) Critical and Subcritical Masses of ²⁴³Cm to ²⁴⁷Cm in Metal The critical and subcritical masses of a sphere of the five curium isotopes, ²⁴³Cm to ²⁴⁷Cm, in metal were calculated with the three reflector conditions: bare...