Description
Cold Fusion
Advances in Condensed Matter Nuclear Science
Coordinator: Biberian Jean-Paul
Language: English
Subjects for Cold Fusion:
Keywords
Applications; Biotransmutation of isotopes; Calorimetry; CaO; Capacitively coupled plasma; China Lake; Coherent correlated states; Cold fusion; Conduction; Constantan; Current; d+d reactions in solid metal; D2O; DBD; Deactivation of reactor waste; Deuterium; Deuterium gas; Dilation; Down-conversion; Electrochemistry; Electrode potential; Energetic particles; Enhanced reaction rate; Excess heat; Fusion Reaction; Gas loading; Gas phase; Heat; Helium-4; Hydrogen; Hydrogen pressure-composition diagram; Ideal energy; Isotopic anomalies; Lattice defect; LENR; Li+d reactions in liquid/solid Li; Low energy beam radiation; Low energy nuclear reactions; Low energy nuclear reactions in biological systems; Material science; Microbial syntrophic associations; Multideuteron capture reactions; Multilayer thin film; Nano material; Nano-sized metal composite; Neutrons; Nickel alloys; Nuclear process; Palladium; Pd; Pd/D co-deposition; Permeation; Phonon-mediated excitation transfer; Phonon-nuclear coupling; Plasma Dielectric barrier discharge; Radiation; Resistance; Screening potential; Theory; Transmutation; Transmutation reactions; Tunneling effect probability; Vacancy; Void; Wires
398 p. · 19x23.3 cm · Paperback
Description
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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.
1. Production of helium in cold fusion experiments 2. Review of Pd/D co-deposition 3. Electrochemical loading to produce the Fleischmann-Pons heat effect (FPHE) 4. Fundamentals of isoperibolic calorimetric measurements in cold fusion experiments 5. Can clean and stable deuterium loading and well-tailored microstructure improve reproducibility? 6. Gas phase 7. Electrically induced anomalous thermal phenomena in nanostructured wires 8. Experimental procedures for excess heat generation from cold fusion reactions 9. Heat generation experiments using nano-sized metal composite and hydrogen gas 10. Screening energy for low energy nuclear reactions in condensed matter 11. Review of permeation-induced nuclear transmutation reaction 12. Effective LENR and transmutation of stable and radioactive isotopes in growing biological systems 13. Trasnmutations and isotopic shifts in LENR experiments 14. The basic nature of the cold fusion effect 15. Models based on phonon-nuclear coupling 16. A study on electron deep orbits by quantum relativistic methods 17. Universal mechanism of LENR in physical and biological systems on the base of coherent correlated states of interacting particles
PhD students and researchers in academia and industry in physical and materials chemistry, and chemical and nuclear physics working on combustion processes
- Systemizes the rapidly growing amount of information in cold fusion or low energy nuclear reaction technologies
- Defines the scientific fundamentals for understanding of cold fusion engineering
- Provides an overview of the history of the development of cold fusion engineering
- Written by an international pool of chapter authors
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