Measuring fast neutrons in Hiroshima at distances relevant to atomic-bomb survivors

Abstract

Data from the survivors of the atomic bombs serve as the major basis for risk calculations of radiation-induced cancer in humans¹. A controversy has existed for almost two decades, however, concerning the possibility that neutron doses in Hiroshima may have been much larger than estimated. This controversy was based on measurements of radioisotopes activated by thermal neutrons that suggested much higher fluences at larger distances than expected^2,3,4,5,6. For fast neutrons, which contributed almost all the neutron dose, clear measurement validation has so far proved impossible at the large distances (900 to 1,500 m) most relevant to survivor locations⁶. Here, the first results are reported for the detection of ⁶³Ni produced predominantly by fast neutrons (above about 1 MeV) in copper samples from Hiroshima. This breakthrough was made possible by the development of chemical extraction methods^7,8 and major improvements in the sensitivity of accelerator mass spectrometry for detection of ⁶³Ni atoms (refs 8–11). When results are compared with ⁶³Ni activation predicted by neutron doses for Hiroshima survivors⁶, good agreement is observed at the distances most relevant to survivor data. These findings provide, for the first time, clear measurement validation of the neutron doses to survivors in Hiroshima.