*DGT says that about 1 tesla is produced at 20 CMs in their reactor.*
This 20CM location must be outside of the reactor. The reaction zone is located inside a 200 micron nickel foam filled with 5 micron particles. The magnetic activity is observed in "localize magnetic traps" (LMT). Because the 5 micron particles are not destroyed by the "bosenova" , the magnetic reaction must be centered is at the tips of or just beyond the nanostructures that are associated with the 5 micron particles. The dimensionality of the magnetic bosenova must be on the nanometer scale and nondestructive to micron level structures. The reactor is double faraday shielded. Was this magnetic measurements done on an unshielded reactor. Let us assume the worst case that the magnetic measurements were done on an unshielded reactor. But the magnetic field must have penetrated the stainless steel pressure vessel and the metal reactor wall(s?). The tesla level field was detected at multiple points around the reactor and the bosenova was depicted to occur inside the 200 micron nickel foam. There are 20,000,000 million nanometers in 20CMs. But to the distance of the bosenova must be added the radius of the hydrogen pressure vessel and the distance of the pressure vessel to the outside metal wall of the reactor; so 20 CMs is a worst case. There is an uncertainty of 200 microns in the origin of the bosenova because that reaction could occur anywhere inside the nickel foam. By the inverse square law, the power of a nanometer sized reaction is reckoned as the square of 20,000,000 with the dimension of tesla. That comes to a MINIMUM of 10^^14 tesla which is correct for the creation of a quark/gluon plasma. I thought that the inverse cube law was the correct law to use but that would but the strength of the magnetic reaction into the twilight zone. I welcome opinion on this point.
