Fukushima: Detecting Radiation at Japan's 2021 Olympic Venues

Azuma Baseball Stadium — one of the venues being used for the 2021 Tokyo Olympics.

By Maggie Gundersen

Fairewinds ongoing scientific research with Dr. Marco Kaltofen of WPI has been peer-reviewed and accepted for publication in the Journal of Environmental Engineering Science. As soon as the Journal of Environmental Engineering Science has an online preprint link available, Fairewinds will release details and a link to the publication.

Azuma Olympic Site, Fukushima Prefecture.

Fairewinds ongoing Japan Project in this peer-reviewed journal article included samples from Fairewinds' 4th Japan Trip in September 2017.  Fairewinds Energy Education sponsored chief engineer Arnie Gundersen and Dr. Kaltofen for two weeks in Japan to meet with community volunteer citizen scientists, who were conducting sampling and submitted that data for scientific review by Fairewinds and Dr. Kaltofen at WPI. During his three previous trips to Japan, Mr. Gundersen taught citizen scientists how to sample dust for radiological analysis. Fairewinds Energy Education and WPI students have been collecting and testing samples from citizen science volunteers and our crews from Olympic & Paralympic venues and host communities in Greater Tokyo & Fukushima Prefecture.

This unique project tracks the divergent releases of beta versus alpha-contamination in Northern Japan and potential radiation exposures to visitors and athletes at the upcoming 2021 Games that Japan's government has named the Recovery Olympics. 

Fairewinds is incredibly grateful to Leon and Rosa Cloder, our host in Tokyo Dr. H. M. Homma, and Steve Leeper (the Founding Partner & Vice President of the Peace, Education, Art, Communication (PEAC) Institute Nonprofit) for hosting us. Our special thanks to Fairewinds other friends in Japan for their hard work and support that made this project possible. We would not have been able to conduct the scientific work we do without the individual donors and foundations who have consistently donated to support Fairewinds travel expenses to Japan and any associated project costs. Good Science takes patience, time, and money.

With the acceptance of this journal article for publication, Fairewinds Energy Education continues the scientific journal research work it began in 2011. The publication of Radioactively-hot particles detected in dusts and soils from Northern Japan by combination of gamma spectrometry, autoradiography, and SEM/EDS analysis and implications in radiation risk assessment in 'Science of the Total Environment (STOTEN)' was co-authored by Dr. Marco Kaltofen, Worcester Polytechnic Institute (WPI), and Arnie Gundersen, Fairewinds Energy Education. That Journal article detailed the analysis of radioactively hot particles collected in Japan following the Fukushima Dai-ichi meltdowns. [Full Report here]

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In his ongoing scientific work, Dr. Marco Kaltofen has also researched and is the author of Microanalysis of Particle-Based Uranium, Thorium, and Plutonium in Nuclear Workers' House Dust published by Environmental Engineering Science Journal Vol. 36, No. 2, February 4, 2019. This peer-reviewed journal article describes how X-ray techniques can detect exotic dust particles containing radioactive matter, thus allowing any analyst to remotely detect nano- and micro-scale traces of the radioactive fuels unique to specific types of weaponization activity. The method firmly distinguishes between natural uranium work, uranium enrichment, fission weapon development, and even three-stage advanced fusion weapons used for MIRV'd delivery systems. 


Fairewinds and Dr. Marco Kaltofen, Associate Research Engineer for the WPI Nuclear Science and Engineering Program at the Dept. of Physics in Massachusetts, will continue their work in detail from additional samples collected worldwide. 

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Fairewinds will keep you informed!