On 11 March 2011 a 9.0-magnitude earthquake and enormous tsunami created human and economic catastrophes in Japan on an almost unimaginable scale. (For more about the earthquake, see the news story on page 22.) Among the infrastructure casualties was the Fukushima Daiichi nuclear power station; more than two years later, the buildings remain almost entirely inaccessible due to high radiation levels. A team from Los Alamos National Laboratory hopes to hasten the dismantlement and remediation efforts by remotely imaging the damaged reactor cores with atmospheric muons produced by cosmic rays. The particles’ penetrating power would produce an x-ray-like image that includes shadows from the denser regions (see the Quick Study by Giulio Saracino and Cristina Cârloganu, Physics Today, December 2012, page 60). But because muons are strongly scattered by uranium and other heavy elements, the researchers plan to use their recently developed method that tracks both incident...
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1 August 2013
August 01 2013
Citation
Stephen G. Benka; Muon scattering at the Fukushima nuclear reactors. Physics Today 1 August 2013; 66 (8): 19. https://doi.org/10.1063/PT.3.2074
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