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South Korean Physicists Come Up With Remote Radioactive ‘Bomb’ Detector

© REUTERS / Toru Hanai Reuters reporter measures a radiation level of 9.76 microsieverts per hour in front of Kumamachi Elementary School inside the exclusion zone in Okuma, near Tokyo Electric Power Co's (TEPCO) tsunami-crippled Fukushima Daiichi nuclear power plant, Fukushima Prefecture, Japan, February 13, 2016
Reuters reporter measures a radiation level of 9.76 microsieverts per hour in front of Kumamachi Elementary School inside the exclusion zone in Okuma, near Tokyo Electric Power Co's (TEPCO) tsunami-crippled Fukushima Daiichi nuclear power plant, Fukushima Prefecture, Japan, February 13, 2016 - Sputnik International
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South Korean scientists have devised a new method of detecting radioactive materials up to 1 kilometer (0.6 miles) away by using pulsed electromagnetic waves, Nature Communications journal reported.

“Two years ago, the world was shocked to learn that a drone had dropped radioactive sand on the residence of the Japanese Prime Minister. Such dirty bombs are impossible to detect in advance using modern radiation detectors because they do not work far away from the source of radiation,” said EunMi Choi, a researcher at Ulsan National Institute of Science and Technology.

Conventional radiation detectors, such as Geiger-Muller counters and ion chamber detectors, are able to detect radiation when close to the source but when they're further away, or the level is decreased, their results are limited, making detection of the so-called “dirty bombs” highly problematic.

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In their effort to find a solution to this problem, Choi and her colleagues found out that electrons generated by radioactive materials can impact powerful beams of electromagnetic radiation and plasma clouds they create.

Even a single electron getting  into this plasma cloud produces an electric discharge with the resultant formation of secondary waves.

Free electrons are always present in the air but they are very few and far between.

The researchers determined that by focusing the beam of electromagnetic radiation on a relatively narrow area they could ensure an electron’s almost 100-percent entry into the plasma cloud due to the close proximity of radioactive materials.

EunMi Choi and her team tested this idea by firing a high-powered generator of microwave radiation, known as a gyrotron, into an antenna, which reflects the waves towards a source.

If there is radioactive material present, this creates plasma that is broken down by the radiation, producing detectable free electrons.

Members of the media, wearing protective suits and masks, receive briefing from Tokyo Electric Power Co. (TEPCO) employees (in blue) in front of the No. 1 (L) and No.2 reactor buildings at TEPCO's tsunami-crippled Fukushima Daiichi nuclear power plant in Okuma town, Fukushima prefecture, Japan February 10, 2016. - Sputnik International
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As shown by these experiments, such a combination of instruments can detect even trace amounts of cobalt-60, about 500 nanograms of the substance, at a distance of about 1 meter (3 ft.) with almost 100% accuracy.

Choi and her colleagues believe that the use of antennas with a diameter of 1.2 meters (3.2 ft.) this technique could eventually make it possible to spot the same amount of fissile material at distances of 1 kilometer (0.6 miles).

This could prove useful when dealing with “dirty bombs” and would also help eliminate the consequences of accidents and leaks at nuclear power stations.

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