I would argue the oscillation between atomic and molecular states of H or D represent the strongly coupled energy exchange with the oscillator. The critical temp places a large gas population near disassociation threshold and then the oscillator slaves the tripping of the threshold so the molecules all disassociate in phase and then emit photons as they immediately re-associate. [slaved multivibrator of bond state?] The disassociations appear to be further aided by motion through lattice defects where changes in suppression value may differentiate between atomic and molecular state. Fran
[snip]Coherent energy exchange in these models works best when the coupling between Including nuclear degrees of freedom in a lattice Hamiltonian 4 the two-level transition (representing electronic and nuclear transitions) and oscillator (representing a vibrational mode) is strong. We studied a further generalization of the lossy spin-boson model in which two transitions are coupled to an oscillator, where one is strongly-coupled and one is weakly-coupled [32]. We found that the strongly coupled system could assist coherent energy exchange for the weakly coupled system. The model that resulted appeared to us to be very closely related to excess heat production in the Fleischmann-Pons experiment, assuming that the mechanism involved D2/4He transitions that were weakly coupled to a phonon mode (weakly coupled due to the Coulomb repulsion between the deuterons), and that a strongly-coupled transition were also present. The big problem in this kind of model ends up being the identification of the strongly-coupled transition. Finding an appropriate strongly-coupled transition with sufficiently strong coupling to do the job seems problematic within the approach [33]. After analyzing many candidate transitions, we came to the conclusion that there were no physical transitions which could serve as the strongly-coupled two-level transition within the model.[/snip] -----Original Message----- From: David ledin [mailto:[email protected]] Sent: Tuesday, February 07, 2012 10:40 AM To: [email protected] Subject: EXTERNAL: [Vo]:MIT suggest new physical model for condensed matter MIT suggest new physical model for condensed matter to explain many observations of anomalies in condensed matter systems. they named Fleischmann , Pons and Piantelli but not rossi . http://arxiv.org/pdf/1201.4377.pdf
