Harry— Nice find!!
It seems to describe a recipe for cold fusion. Too many more atoms would probably result in a big event that would wreck the experiment. The dynamics of the event are fast—appear to be instanteous. Note the importance of spin---angular momentum at 0. A quotation from the link----- “In fact, the "hot and messy" environment inside the glass tube was key to the experiment's success. The atoms were in what physicists call a macroscopic spin singlet state, a collection of pairs of entangled particles' total spin sums to zero. The initially entangled atoms pass their entanglement to each other via collisions in a game of quantum tag, exchanging their spins but keeping the total spin at zero, and allowing the collective entanglement state to persist for at least a millisecond. For instance, particle A is entangled with particle B, but when particle B hits particle C, it links both particles with particle C, and so on.” The group of atoms (not only nuclei) is able to exchange their nuclear spin energy with the atomic electron spin energy—conserving energy and angular momentum!!!!! It could be called NUCLEAR—ATOMIC SPIN COUPLING. The resonant ambient electro-magnetic field is a key for initiation of the exchange of angular momentum and energy IMHO. Bob Cook From: H LV<mailto:[email protected]> Sent: Wednesday, June 10, 2020 8:30 AM To: [email protected]<mailto:[email protected]> Subject: [Vo]:A quantum entanglement record 15 trillion atoms entangled for a millisecond at the temperature for baking cookies https://www.livescience.com/physicists-entangle-15-trillion-hot-atoms.html Harry
