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Escapekey
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Can someone explain what are the implications for the 13 neutron beams that have been observed at Fukushima? How are they created? What will cause more to be created?
I don't know enough to comment, but there is an article on the subject at: http://www.google.ca/url?sa=t&sourc...FpQhlYNHg&sig2=ymzw9RMGXOZHf8xxe3z4LA&cad=rjaEscapekey said:Can someone explain what are the implications for the 13 neutron beams that have been observed at Fukushima? How are they created? What will cause more to be created?
Escapekey said:Am I just paranoid or is this question being ignored?
orndorf said:Arnie Gundersen gives his theory on why neutrons are being detected at Fukushima in his new video.
http://www.fairewinds.com/multimedia
minerva said:But surely we don't consider crackpot anti-nuclear activists like Gundersen as credible sources around here, do we?
clancy688 said:, but many of his claims were proven false in following discussions.
Neutron beams are beams of particles that contain neutrons, which are subatomic particles found in the nucleus of an atom. In the context of Fukushima, neutron beams are being used to probe and analyze the nuclear fuel in the damaged reactors.
The use of 13 neutron beams allows for a more comprehensive analysis of the nuclear fuel, providing a more accurate understanding of its condition and potential risks. Additionally, having multiple beams allows for redundancy in case any one beam malfunctions.
The implications of using neutron beams at Fukushima are that it can help scientists and engineers better understand the damage to the nuclear fuel and the extent of the contamination. This information can then be used to develop more effective strategies for cleanup and containment.
While neutron beams themselves are not harmful, there is a risk of exposure to radioactive materials during the use of these beams. However, proper safety protocols and precautions are in place to minimize this risk for workers and surrounding areas.
In addition to neutron beams, scientists and engineers are also using remote-controlled robots, drones, and advanced imaging techniques to explore and assess the damage at Fukushima. These technologies work together to provide a more comprehensive understanding of the situation.