Reading Room
Review
Nagel, David J., "Evidence of Operability and Utility from Low Energy Nuclear Reaction Experiments", NUCAT Energy LLC, 2017
Mosier-Boss, Pamela, "A Review on Nuclear Products Generated During Low-Energy Nuclear Reactions (LENR)", JCMNS, Vol. 6, Issue 1, 2012
Hagelstein, Peter et al., “New Physical Effects in Metal Deuterides”, Proceedings of ICCF-11, 2004
Bockris, John et al., “A Review of the Investigations of the Fleischmann-Pons Phenomena”, Fusion Technology Vol. 18, 1990
Storms, Edmund, "Review of Experimental Evidence about the Cold Fusion Effect", Fusion Technology Vol. 20, 1991
McKubre, Michael, "Cold Fusion (LENR): One Perspective on the State of the Science", Proceedings of ICCF-15, 2009
Krivit, Steven et al., "A New Look at Low-Energy Nuclear Reaction Research", Journal of Environmental Monitoring, Issue 10, 2009
Violante, Vittorio et al., “Review of materials science for studying the Fleischmann and Pons effect”, Current Science, Vol. 108, No. 4, 2015
Mosier-Boss, Pamela et al., "A Review of Negative LENR Experiments, Determining Why They Failed, and How They Impacted the Field", JCMNS, Vol. 34, 2021
Theory
Metzler, Florian et al., "Known Mechanisms That Increase Nuclear Fusion Rates in the Solid State", New Journal of Physics, 2024
Hagelstein, Peter et al., “Models for nuclear fusion in the solid state”, arXiv, 2024
Czerski, Konrad, “Deuteron-deuteron nuclear reactions at extremely low energies”, Physical Review C, Vol. 106, 2022
Czerski, Konrad et al., "Indications of electron emission from the deuteron-deuteron threshold resonance", Physical Review C, Vol. 109, Issue 2, 2024
Pines, Vladimir, et al., “Nuclear Fusion Reactions in Deuterated Metals”, Physical Review C, vol. 101, 2020, p. 044609
Experiment
Fleischmann, Martin, et al., “Calorimetry of the palladium-deuterium-heavy water system”, Journal of Electroanalytical Chemistry, 1990. 287: p. 293
Fleischmann, Martin, et al., “Calorimetric measurements of the palladium/deuterium system: fact and fiction”, Fusion Technology, 1990. 17: p. 669
Fleischmann, Martin and Pons, Stanley, “Calorimetry of the Pd-D2O system: from simplicity via complications to simplicity”, Physics Letters A, 1993. 176: p. 118.
Fleischmann, Martin and Miles, Melvin, “Isoperibolic Calorimetric Measurements of the Fleischmann-Pons Effect”, Proceedings of ICCF-14, 2008
Hansen, Wilford, “Report to the Utah State Fusion/Energy Council on the Analysis of Selected Pons Fleischmann Calorimetric Data”, Proceedings of ICCF-2, 1991, Societa Italiana di Fisica, Bologna, Italy.
McKubre, Michael et al., “Development of Energy Production Systems from Heat Produced in Deuterated Metals”, Volume 1, TR-107843-V1, Electric Power Research Institute, 1998
Miles, Melvin et al., “Heat and Helium Measurements Using Palladium and Palladium Alloys in Heavy Water”, Proceedings of ICCF-6, 1996
Mosier-Boss, Pamela and Forsley, Lawrence, "Nuclear Reactions in Condensed Matter", GEC Technical Report, Feb. 2019
Tuggle, Dale et al., “Tritium Evolution from Various Morphologies of Palladium”, Los Alamos National Laboratory Report LAUR#94-971, 1993
De Ninno, Antonella et al., “Experimental Evidence of 4He Production in a Cold Fusion Experiment”, ENEA Frascati, Roma, 2002
Iwamura, Yasuhiro et al., “Observation of Low Energy Nuclear Transmutation Reactions Induced by Deuterium Permeation through Multilayer Pd and CaO thin Film” JCMNS, 2011. 4: p. 132-144.
Smith, Phillip J. et al., "Electrolytic Co-deposition Neutron Production Evaluation" TM-20210010199, NASA Technical Reports Server, Jul. 2021
Fralick, Gustave et al., “Transmutations Observed from Pressure Cycling Palladium Silver Metals with Deuterium Gas” TM-20205008118, NASA Technical Reports Server, Oct. 2020
Policy
Grimshaw, Thomas “Essential Public Policy Changes for the Development and Deployment of Solid-State Fusion Energy”, Solid State Fusion Discovery Reports, Chapter Three, Anthropocene Institute, 2024
Metzler, Florian and Messinger, Jonah, “An Ambidextrous Approach to Nuclear Energy Innovation.” Issues in Science and Technology 40, no. 4 (Summer 2024): 58–62.