| Foreword | p. xvii |
| Excess Heat and Calorimetry | |
| Background to cold fusion: The genesis of a concept | p. 1 |
| Polarized D[superscript +]/Pd-D[subscript 2]O system: Hot spots and mini-explosions | p. 13 |
| Fluidized bed experiments using platinum and palladium particles in heavy water | p. 23 |
| Excess heat from low-electrical conductivity heavy water spiral-wound Pd/D[subscript 2]O/Pt and Pd/D[subscript 2]O-PdCl[subscript 2]/Pt devices | p. 29 |
| Can a Pd/D[subscript 2]O/Pt device be made portable to demonstrate the optimal operating point? | p. 45 |
| Excess heat in heavy water-Pd/C catalyst cathode (Case-type) electrolysis at the temperature near the boiling point | p. 55 |
| Intensification of low energy nuclear reactions using superwave excitation | p. 61 |
| Generation of heat and products during plasma electrolysis | p. 73 |
| Excess heat in molten salts of (LiCl - KCl) + (LiD + LiF) at the titanium electrode during electrolysis | p. 89 |
| Production of excess heat, impurity elements and unnatural isotopic ratios in high-current glow discharge experiments | p. 99 |
| Progress in gas-loading D/Pd system: The feasibility of a self-sustaining heat generator | p. 113 |
| Heat and [superscript 4]He | |
| Correlation of excess enthalpy and helium-4 production: A review | p. 123 |
| [superscript 4]He detection in a cold fusion experiment | p. 133 |
| Development of compact nuclear fusion reactor using solid pycnodeuterium as nuclear fuel | p. 139 |
| Triggering | |
| Laser stimulation of deuterated palladium: Past and present | p. 159 |
| Practical techniques in CF research: Triggering methods | p. 171 |
| Use of a very sensitive Seebeck calorimeter to study the Pons-Fleischmann and Letts effects | p. 183 |
| The need for triggering in cold fusion reactions | p. 199 |
| Photo-induced excess heat from laser-irradiated electrically polarized palladium cathodes in D[subscript 2]O | p. 213 |
| Triggering a deuterium flux in Pd wire using an electromagnetic field | p. 227 |
| Cavitation | |
| Cavitation and fusion | p. 233 |
| Calorimetry | |
| The instrument function of isoperibolic calorimeters: Excess enthalpy generation due to the parasitic reduction of oxygen | p. 247 |
| How to make a cheap and effective Seebeck calorimeter | p. 269 |
| Analysis of some electrochemical calorimetry data | p. 273 |
| Related Topics | |
| What conditions are required to initiate the LENR effect? | p. 285 |
| Energetics of defects and strains in palladium | p. 291 |
| Thermal to electric energy conversion | p. 305 |
| MultiCell reactors | p. 315 |
| Tritium Production | |
| Tritium generation from the interaction of a glow discharge plasma with metals and a magnetic field | p. 325 |
| High-frequency radiation and tritium channel | p. 353 |
| Transmutation | |
| Review of transmutation reactions in solids | p. 361 |
| Thermal and isotopic anomalies when Pd cathodes are electrolyzed in electrolytes containing Th-Hg salts dissolved at micromolar concentration in C[subscript 2]H[subscript 5]OD/D[subscript 2]O mixtures | p. 379 |
| Pd-110/108 ratios and trace element changes in particulate palladium exposed to deuterium gas | p. 399 |
| Search for nuclear ashes in electrochemical experiments | p. 405 |
| Analysis of Ni-hydride thin film after surface plasmon generation by laser technique | p. 421 |
| Low energy nuclear transmutation in condensed matter induced by D[subscript 2] gas permeation through Pd complexes: Correlation between deuterium flux and nuclear products | p. 435 |
| Replication of MHI transmutation experiment by D[subscript 2] gas permeation through Pd complex | p. 447 |
| Analysis by time-of-flight secondary ion mass spectroscopy for nuclear products in hydrogen penetration through palladium | p. 455 |
| Changes in the radioactivity, topography, and surface composition of uranium after hydrogen loading by aqueous electrolysis | p. 463 |
| Comment on carbon production in deuterium-metal systems | p. 475 |
| Ascending diffusion or transmutation | p. 483 |
| Possibility of using of cold fusion for the transmutation of nuclear waste products | p. 487 |
| Experimental observation and a possible way to the create anomalous isotopes and stable superheavy nuclei via electron-nucleus collapse | p. 493 |
| Radiation | |
| Charged-particle emissions from deuterided metals | p. 509 |
| Neutron emissions from deuterided metals | p. 525 |
| Energetic charged particles from deuterium metal systems | p. 535 |
| Phenomenon of an energetic charged particle emission from hydrogen/deuterium loaded metals | p. 539 |
| Nuclear emissions from titanium hydride/deuteride induced by powerful picosecond laser beam | p. 559 |
| Energetic charged particles produced in the gas phase by electrolysis | p. 567 |
| Detection of energetic charged particles during electrolysis | p. 577 |
| Experiments characterizing the x-ray emission from a solid-state cathode using a high-current glow discharge | p. 585 |
| Experimental research into secondary penetrating radiation when x-ray beams of solid laser interact with various target materials | p. 597 |
| Gamma-ray detection and surface analysis on a palladium electrode in a dc glow-like discharge experiment | p. 603 |
| Proposal for an experiment designed to seek evidence for cold fusion | p. 611 |
| Cold (metal-enhanced) fusion, geo-fusion and cold nucleosynthesis | p. 617 |
| Beam Experiments | |
| D(d,p)t reaction rate enhancement in a mixed layer of Au and Pd | p. 623 |
| Strong enhancement of dd-reaction accompanied by x-ray generation in a pulsed low voltage high-current deuterium glow discharge with a titanium cathode | p. 635 |
| Studies on 3D fusion reactions in TiD[subscript x] under ion beam implantation | p. 657 |
| Theory | |
| Screening | |
| Study of lattice potentials on low-energy nuclear processes in condensed matter | p. 667 |
| Calculations of nuclear reaction probabilities in a crystal lattice of titanium deuteride | p. 681 |
| Enhancement of nuclear reactions due to screening effects of core electrons | p. 687 |
| Fusion reaction within a microcrack with cubic lattice structure at low energy and study of the non semi-classical tunneling | p. 695 |
| Quantum field theory, and screening the Coulomb potential by mobile deuterons for the low-energy nuclear reaction | p. 703 |
| First-principles studies of ionic and electronic transport in palladium hydride | p. 709 |
| Resonant Tunneling | |
| The application of multiple scattering theory in calculating the deuterium flux permeating a Pd thin film | p. 717 |
| Bethe's calculation for solar energy and selective resonant tunneling | p. 729 |
| Ion Band States | |
| Nuts and bolts of the ion band state theory | p. 735 |
| The dd cold fusion-transmutation connection | p. 753 |
| LENR: Superfluids, self-trapping and non-self-trapping states | p. 767 |
| Impact of boundary effects involving broken gauge symmetry on LENR's | p. 771 |
| Bose-Einstein Condensate Approach | |
| Quantum many-body theory of low energy nuclear reaction induced by acoustic cavitation in deuterated liquid | p. 779 |
| Experimental test of Bose-Einstein condensation mechanism for low energy nuclear reaction in nanoscale atomic clusters | p. 789 |
| Quantum states of deuterons in palladium | p. 801 |
| Multibody Fusion | |
| Mechanism of deuteron cluster fusion by EQPET model | p. 809 |
| Analysis of nuclear transmutation induced from metal plus multibody-fusion-products reaction | p. 819 |
| Triple deuterium fusion by three-body recombination between deuteron and the nuclei of lattice trapped deuterium molecules | p. 825 |
| Preparata Theory | |
| Are nuclear transmutations observed at low energies consequences of QED coherence? | p. 831 |
| Phonon Coupling | |
| Unified phonon-coupled SU(N) models for anomalies in metal deuterides | p. 837 |
| Resonant tunneling and resonant excitation transfer | p. 871 |
| Few-body nuclear wave functions | p. 887 |
| Coherence factors in many-particle three-level systems | p. 903 |
| Neutron Clusters | |
| Theory of low-temperature particle showers | p. 915 |
| CF-matter and the cold fusion phenomenon | p. 919 |
| Other | |
| The theory and experimental investigation of controlled spontaneous conversion nuclear decay of radioactive isotopes | p. 929 |
| The cold fusion phenomenon: A hypothesis | p. 937 |
| Other Topics | |
| The LENR-CANR.org website: Its past and future | p. 939 |
| Teachers debate cold fusion | p. 943 |
| The dilemma of a physics teacher | p. 953 |
| "Cold fusion" may be part of a scientific revolution | p. 959 |
| The ball lightning state in cold fusion | p. 973 |
| LENR and "cold fusion" excess heat: Their relation to other anomalous microphysical energy experiments and emerging new energy technologies | p. 983 |
| Post-Deadline Papers | |
| Generalized cause and effect demonstration protocol | p. 1005 |
| Optimal laser wavelength for resonant transmission through the Coulomb barrier | p. 1009 |
| Author Index | p. 1015 |
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