From: Axil Axil
Two coupled Jaynes-Cummings cells http://arxiv.org/pdf/1202.4827v1 This reference looks to me to be a model of how energy is shared between JCH cells when the cells are entangled. This is how the energy of a big quanta gets distributed to many cells. This solution also says that if entanglement is lost, the big quanta will not be broken up and released from the lattice. Well, that is a kind of intermediate downshifting - but the "big" quanta are still not nuclear levels of energy. AFAIK the superset of all of this is efficient lasers. JCH is about optical lasers. If there is any applicability to gamma radiation, then I have not seen it. A google search using the terms: Jaynes-Cummings "gamma radiation" turns up a couple of irrelevant hits. The problem with the goal of thermalizing gamma radiation is that without near perfection - it is so deadly that even if you could thermalize 99% of it with any available QM trick, that is not adequate for human safety. Common sense should indicate two things -if gamma radiation could be shielded without tons of lead, then every jumbo jet would be nuclear powered (for instance using the small reactors or submarines) saving the airlines millions; but moreover, even if there was only a slight indication this gamma thermalization could be done in the future - billions would be being spent now in a quest to find such a miracle. Instead, there is nothing that I can find to suggest that anyone thinks gamma thermalization is remotely possible.
