Estimates of radiological risk from terrorist attacks using plutonium.

The possible use of radioactivity dispersal devices by terrorist groups has been recently reported in the news. In this paper, we discuss the threat of terrorist attacks by plutonium, with particular attention to the dispersal of plutonium by explosion or fire. Doses resulting from inhalation of radioactive aerosol induced by a plutonium explosion or fire are simulated using a Gaussian plume model (the HOTSPOT code) for different meteorological conditions. Ground contamination and resuspension of dust are also considered in the simulations. Our simulations suggest that acute effects from a plutonium dispersal attack are very unlikely. For late stochastic effects, the explosion poses a greater hazard than fire. However, even in the worst-case scenario, the dispersed plutonium would cause relatively few excess cancers (around 80 in a city of 2 million inhabitants) after many years from the explosion, and these excess cancers would remain undetected against the background of cancer fatalities.