https://phys.org/news/2018-05-…atom-clouds-theories.html
Unexpected behaviour of atom clouds challenges existing theories
Quote"Most theories so far successfully describe the coupling of Bose-Einstein-Condensates in equilibrium, but they are insufficient to describe the out of equilibrium situation and the synchronization we observe." The fact that the "quantum rhythms" of the two atom clouds are exactly the same after only a few milliseconds implies the existence of a mechanism that dissipates energy. As the system is isolated from its environment, energy cannot be dissipated but only transferred. "The coupling as accounted in textbooks theories cannot transfer energy as strongly and quickly as we observe. So either these theories are missing something – or they are just wrong. It means that it is our understanding of the interaction between the atoms itself which must be modified."
Regarding energy teleportation between BECs in a LENR reaction:
In the LENR reaction, when a Bose condensate is involved, the atom to be transformed by the LENR reaction and the BEC become entangled...connected through magnetism via the flux lines of an interconnecting worm hole . The energy from both systems synchronize and the protons and neutrons in the atom are affected. Inside these nucleons, the quarks and gluons exist in a state off superconductivity. The nucleons are BECs. During synchronization of the BECs, energy passes from the LENR based BEC to the nucleons. This energy destabilizes the quarks inside the nucleons and they decay. This decay produces energy that then is passed back to the LENR based BEC. All the subsequent subatomic particles produced by the LENR reaction also decay but since they are still entangled, their decay energy is returned to the LENR BEC. Even when muons produced by the initial LENR reaction catalyze fusion reactions miles away from the LENR BEC, that energy is still returned to the LENR BEC. This is why no nuclear level radiation is seen in a LENR reaction that has developed a BEC.