Models relevant to excess heat production in fleischmann-pons experiments
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Observations of excess heat in the absence of commensurate energetic charged particles challenges local energy and momentum conservation, a foundation of nuclear physics. We have explored models based on excitation transfer, in which global energy is conserved but local energy conservation is violated. We present recent results on both excitation transfer and anomalous energy exchange within the context of lossless spin-boson models. We introduce a rotation that allows us to isolate terms in the rotated Hamiltonian responsible for both processes. Spin-boson type models augmented with loss appear to be sufficiently strong to account for the excess heat effect.
Description
In Low-Energy Nuclear Reactions Sourcebook; Marwan, J., et al.;
ACS Symposium Series; American Chemical Society: Washington, DC, 2008.
Date issued
2008-08Department
Massachusetts Institute of Technology. Research Laboratory of ElectronicsJournal
ACS Symposium Series: Low-Energy Nuclear Reactions Sourcebook
Publisher
American Chemical Society (ACS)
Citation
Hagelstein Peter L., and Chaudhary Irfan U. “Models Relevant to Excess Heat Production in Fleischmann-Pons Experiments.” Low-Energy Nuclear Reactions Sourcebook. Vol. 998. American Chemical Society, 2008. 249-267. ACS Symposium Series.
Version: Author's final manuscript
ISBN
9780841269668
ISSN
9780841221413