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Recent progress in the emerging field of condensed matter nuclear science (CMNS) is presented as a combination of basic nuclear science, energy, nanomaterials science, electro-chemistry and nuclear physics.Key and selected papers from an important conference in this exciting area provide the latest advances in CMNS studies. Current results from cold fusion and condensed matter nuclear science are included.
The International Conference on Condensed Matter Nuclear Science is held annually on a different continent every time. This volume documents the proceedings of the 11th conference held in Marseilles, France. It includes articles that indicate the current position of the condensed matter nuclear science field.With an extensive collection of articles, this volume is indispensable since very few papers related to this field are published in scientific journals.
This volume is a collection of papers from the Tenth International Conference on Cold Fusion attended by most of the important groups around the world that are active in the field. New results are presented in the area of excess heat production, including observations of excess heat, correlation of excess heat and helium, and laser stimulation of excess heat. Nuclear emissions from metal deuterides are put forth by several groups. Observations of transmutation, including the Iwamura experiment and others, are also discussed. Updates on theoretical efforts from the different groups are included as well.
The International Conference on Condensed Matter Nuclear Science is held annually on a different continent every time. This volume documents the proceedings of the 11th conference held in Marseilles, France. It includes articles that indicate the current position of the condensed matter nuclear science field. With an extensive collection of articles, this volume is indispensable since very few papers related to this field are published in scientific journals. Contents: Reproducibility, Controllability and Optimization of LENR Experiments (D J Nagel); Superwave Reality (I Dardik); Generation of Heat and Products During Plasma Electrolysis (T Mizuno et al.); Electron Screening Constraints for the Cold Fusion (K Czerski et al.); Low Mass 1.6 MHz Sonofusion Reactor (R Stringham); Evidence of Microscopic Ball Lightning in Cold Fusion Experiments (E H Lewis); Co-Deposition of Palladium with Hydrogen Isotopes (J Dash & A Ambadkar); Possible Nuclear Transmutation of Nitrogen in the Earth''s Atmosphere (M Fukuhara); Theoretical Model of the Probability of Fusion Between Deuterons within Deformed Lattices with Microcracks at Room Temperature (F Fulvio); Effective Interaction Potential in the Deuterium Plasma and Multiple Resonance Scattering (T Toimela); Theoretical Study of Nuclear Reactions Induced by Bose-Einstein Condensation in Pd (K-I Tsuchiya & H Okumura); Phonon-Exchange Models: Some New Results (P L Hagelstein); Cold Fusion Phenomenon and Solid State Nuclear Physics (H Kozima); Effects of Atomic Electrons on Nuclear Stability and Radioactive Decay (D V Filippov et al.); Recent Cold Fusion Claims: Are They Valid (L Kowalski); and other papers. Readership: Academics and researchers in nuclear physics.
The Journal on Advanced Studies in Theoretical and Experimental Physics, including Related Themes from Mathematics
This book is a summary of selected experimental and theoretical research performed over the last 19 years that gives profound and unambiguous evidence for low energy nuclear reaction (LENR), historically known as cold fusion. In 1989, the subject was announced with great fanfare, to the chagrin of many people in the science community. However, the significant claim of its discoverers, Martin Fleischmann and Stanley Pons, excess heat without harmful neutron emissions or strong gamma radiation, involving electrochemical cells using heavy water and palladium, has held strong. In recent years, LENR, within the field of condensed matter nuclear science, has begun to attract widespread attention and is regarded as a potential alternative and renewable energy source to confront climate change and energy scarcity. The aim of the research is to collect experimental findings for LENR in order to present reasonable explanations and a conclusive theoretical and practical working model. The goal of the field is directed toward the fabrication of LENR devices with unique commercial potential demonstrating an alternative energy source that does not produce greenhouse gases, long-lived radiation or strong prompt radiation. The idea of LENR has led to endless discussions about the kinetic impossibility of intense nuclear reactions with high coulomb barrier potential. However, recent theoretical work may soon shed light on this mystery. Understanding this process is one of the most challenging and perhaps important issues in the scientific world. This book includes previously unpublished studies, new and controversial theories to approach LENR with access to new sources and experimental results. The book offers insight into this controversial subject and will help readers re-evaluate their perspective on LENR for a possible alternative energy source.
Cold Fusion: Advances in Condensed Matter Nuclear Science provides a concise description of the existing technological approaches in cold fusion or low energy nuclear reaction engineering. It handles the chemistry, physics, materials, and various processes involved in cold fusion, and provides a critical analysis of obtained theoretical and experimental results. The book has a very international appeal with the editor from France and an international pool of chapter authors from academia and industry. This book is an indispensable resource for researchers in academia and industry connected with combustion processes and synthesis all over the world.
Unified Field Theory was an expression first used by Einstein in his attempt to unify general relativity with electromagnetism. Unified Field Theory and Occam's Razor attempts to provide real answers to foundational questions related to this unification and should be of high interest to innovative scientists. A diverse group of contributing authors approach an old problem with an open-mindedness that presents a new and fresh perspective. The following topics are discussed in detail in the hope of a fruitful dialogue with all who are interested in this subject:This highly original book brings together theoretical researchers and experimentalists specialized in the areas of mathematics and epistemology, theoretical and experimental physics, engineering, and technology. For years they have worked independently on topics related to the foundations and unity of physics and have had numerous overlapping ideas in terms of using Clifford algebra and spinors. Within the book, new technology applications are outlined and theoretical results are complemented by interpretations of experimental data.
One of the most important discoveries of this century — cold fusion — was summarily rejected by science and the media before sufficient evidence had been accumulated to make a rational judgment possible. Enough evidence is now available to show that this rejection was wrong and that the discovery of a new source of clean energy may help solve some serious problems currently facing mankind. The book catalogues and evaluates this evidence and shows why the initial reaction was driven more by self-interest than fact. This book is essential reading for anyone who wants to understand the history and science behind the cold fusion controversy. In addition to the technological importance of the effect, the discovery of new ways to initiate nuclear reactions without producing significant radiation reveals an entirely new mechanism operating at the nuclear level in solid material. This new mechanism has important implications for an understanding of many other phenomena.
The A-to-Z reference resource for nuclear energy information A significant milestone in the history of nuclear technology, Nuclear Energy Encyclopedia: Science, Technology, and Applications is a comprehensive and authoritative reference guide written by a committee of the world's leading energy experts. The encyclopedia is packed with cutting-edge information about where nuclear energy science and technology came from, where they are today, and what the future may hold for this vital technology. Filled with figures, graphs, diagrams, formulas, and photographs, which accompany the short, easily digestible entries, the book is an accessible reference work for anyone with an interest in nuclear energy, and includes coverage of safety and environmental issues that are particularly topical in light of the Fukushima Daiichi incident. A definitive work on all aspects of the world's energy supply, the Nuclear Energy Encyclopedia brings together decades of knowledge about energy sources and technologies ranging from coal and oil, to biofuels and wind, and ultimately nuclear power.