Abstract
Multiple implementations of a Lattice Energy Converter (LEC) have demonstrated the ability to self-initiate and self-sustain the production of a voltage and current over extended periods of time. A LEC converts the internal energy within the lattice of some materials, such as palladium, or of gases occluded within the lattice, such as hydrogen or deuterium, into ionizing radiation and elec- trical energy. Experiments include tests where the current-voltage (I-V) characteristics of the LEC were measured when an external voltage/current was applied, as well as other I-V tests where the spontaneous LEC voltage was measured as a function of tempera- ture and resistance. LEC voltage and current has been shown to increase with increased temperature. The electrical power produced by a LEC is similar to that produced by a nuclear battery however, a LEC does not require radioactive materials. While the energy levels produced to date are several orders of magnitude below those required for most power sources, the calculated flux of ionizing radiation necessary to produce the experimentally measured voltage and current would require the equivalent of several curies of ra- diation. These results have been independently replicated by two individuals. A video of the Lattice Energy Converter presentation, from the 2021 LENR workshop in honor of Dr. Srinivasan, is available at: https://www.youtube.com/watch?v=J4dzTWY_aWM This paper expands on the YouTube video presentation with additional analysis that supports the observed experimental results
Published Version
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