Aizawa H., K. Mita K., et al. Detecting Energetic Charged Particles in D2O and H2O Electrolysis Using a Simple Arrangement of Cathode and CR-39, J. Condensed Matter Nucl. Sci. 13, (2014), p 6 www.iscmns.org/CMNS/JCMNS-Vol13.pdf
Asami T. Study on the Phenomenon Reported 'Neutron Generation at Room Temperature in a Cylinder Packed with Titanium Shavings and Pressurized Deuterium Gas', J. Condensed Matter Nucl. Sci. 5, (2011), p 7 www.iscmns.org/CMNS/JCMNS-Vol5.pdf
Asami T., Sano N. Study on the Phenomenon Reported 'Neutron Generation at Room Temperature in a Cylinder Packed with Titanium Shavings and Pressurized Deuterium Gas' (2), J. Condensed Matter Nucl. Sci. 9, (2012), p 1 www.iscmns.org/CMNS/JCMNS-Vol9.pdf
Asami T., Giorgi G., et al. Study on the Phenomenon Reported 'Neutron Generation at Room Temperature in a Cylinder Packed with Titanium Shavings and Pressurized Deuterium Gas', J. Condensed Matter Nucl. Sci. 18, (2016), p 24 www.iscmns.org/CMNS/JCMNS-Vol18.pdf
Azizi O., He J., et al. Effect of Cathode Pretreatment and Chemical Additives on H/D Absorption into Palladium via Electrochemical Permeation, J. Condensed Matter Nucl. Sci. 19, (2016), p 1 www.iscmns.org/CMNS/JCMNS-Vol19.pdf
Bazhutov Y., Belousova E.O., et al. Investigation of Radiation Effects in Loading Ni, Be and LaNi5by Hydrogen, J. Condensed Matter Nucl. Sci. 13, (2014), p 19 www.iscmns.org/CMNS/JCMNS-Vol13.pdf
Bazhutov Y. Erzion Model Interpretation of the Experiments with Hydrogen Loading of Various Metals, J. Condensed Matter Nucl. Sci. 13, (2014), p 29 www.iscmns.org/CMNS/JCMNS-Vol13.pdf
Bazhutov Yu. N., Gerasimova A. I., et al. Calorimetric and Radiation Diagnostics of Water Solutions Under Intense Light Irradiation, J. Condensed Matter Nucl. Sci. 19, (2016), p 10 www.iscmns.org/CMNS/JCMNS-Vol19.pdf
Bernstein L. A. Destruction of Radioactivity by Stimulation of Nuclear Transmutation Reactions, J. Condensed Matter Nucl. Sci. 11, (2013), p 8 www.iscmns.org/CMNS/JCMNS-Vol11.pdf
Biberian J. P. Unexplained Explosion During an Electrolysis Experiment in an Open Cell Mass Flow Calorimeter, J. Condensed Matter Nucl. Sci. 2, (2009), p 1 www.iscmns.org/CMNS/JCMNS-Vol2.pdf
Biberian J. P. Biological Transmutations: Historical Perspective, J. Condensed Matter Nucl. Sci. 7, (2012), p 11 www.iscmns.org/CMNS/JCMNS-Vol7.pdf
Biberian J. P., Iraj Parchamazad, et al. Possible Role of Oxides in the Fleischmann–Pons Effect, J. Condensed Matter Nucl. Sci. 13, (2014), p 38 www.iscmns.org/CMNS/JCMNS-Vol13.pdf
Biberian J. P. Cold Fusion, J. Condensed Matter Nucl. Sci. 13, (2014), p 44 www.iscmns.org/CMNS/JCMNS-Vol13.pdf
Biberian J. P., Valat M., et al. Pressurized Plasma Electrolysis Experiments, J. Condensed Matter Nucl. Sci. 15, (2015), p 190 www.iscmns.org/CMNS/JCMNS-Vol15.pdf
Biberian J.P. A Tribute to Georges Lonchampt, J. Condensed Matter Nucl. Sci. 21, (2016), p 1 www.iscmns.org/CMNS/JCMNS-Vol21.pdf
Bockris J O'M. Evidence Concerning the Mechanism of the Nuclear Reaction between Deuterium and Tritium, J. Condensed Matter Nucl. Sci. 7, (2012), p 26 www.iscmns.org/CMNS/JCMNS-Vol7.pdf
Bockris J O'M. Priority in Nuclear Reactions in the Cold, J. Condensed Matter Nucl. Sci. 7, (2012), p 32 www.iscmns.org/CMNS/JCMNS-Vol7.pdf
Bockris J O'M. Instrumentation Relevant to Electrochemical Measurements in Condensed Matter Nuclear Reactions, J. Condensed Matter Nucl. Sci. 9, (2012), p 10 www.iscmns.org/CMNS/JCMNS-Vol9.pdf
Bockris J. On Martin Fleischmann: An Obituary and More, J. Condensed Matter Nucl. Sci. 11, (2013), p 1 www.iscmns.org/CMNS/JCMNS-Vol11.pdf
Bok S., Sangho Bok, Mathai C., et al. Fluorescence-based Temperature Sensor for Anomalous Heat from Loaded Palladium Electrodes with Deuterium or Hydrogen, J. Condensed Matter Nucl. Sci. 24, (2017), p 25 www.iscmns.org/CMNS/JCMNS-Vol24.pdf
Bottollier-Curtet H., Koberl O., et al. Search for Isotopic Anomalies in Alchemical Silver Coins from the Germanischen National Museum in Nuremberg, J. Condensed Matter Nucl. Sci. 1, (2007), p 148 www.iscmns.org/CMNS/JCMNS-Vol1.pdf
Brown J. S. Enhanced Low Energy Fusion Rate in Metal Deuterides Due to Vibrational Deuteron Dipole–Dipole Interactions and Associated Resonant Tunneling Between Neighbouring Sites, J. Condensed Matter Nucl. Sci. 2, (2009), p 45 www.iscmns.org/CMNS/JCMNS-Vol2.pdf
Budko K.P., Korshunov A.I. Calorimetric Investigation of Anomalous Heat Production in Ni–H Systems, J. Condensed Matter Nucl. Sci. 23, (2017), p 85 www.iscmns.org/CMNS/JCMNS-Vol23.pdf
Buxerolle M., Kurkdjian J. An Historical Experiment of Neutron Detection Near an Electrolytic Cell, J. Condensed Matter Nucl. Sci. 21, (2016), p 7 www.iscmns.org/CMNS/JCMNS-Vol21.pdf
Calaon A. Yet Another LENR Theory: Electron-mediated Nuclear Reactions (EMNR), J. Condensed Matter Nucl. Sci. 19, (2016), p 17 www.iscmns.org/CMNS/JCMNS-Vol19.pdf
Cardone F., Petrucci A., et al. Piezonuclear Neutrons from Iron, J. Condensed Matter Nucl. Sci. 8, (2012), p 198 www.iscmns.org/CMNS/JCMNS-Vol8.pdf
Carpinteri A., Manuello A., et al. Piezonuclear Fission Reactions Simulated by the Lattice Model, J. Condensed Matter Nucl. Sci. 15, (2015), p 149 www.iscmns.org/CMNS/JCMNS-Vol15.pdf
Carpinteri A., Borla O., et al. Hydrogen Embrittlement and Piezonuclear Reactions in Electrolysis Experiments, J. Condensed Matter Nucl. Sci. 15, (2015), p 162 www.iscmns.org/CMNS/JCMNS-Vol15.pdf
Castagna E., Lecci, S., et al. Correlation Between Surface Properties and Anomalous Effects in F&P Experiments, J. Condensed Matter Nucl. Sci. 8, (2012), p 49 www.iscmns.org/CMNS/JCMNS-Vol8.pdf
Celani F., Calamai O., et al. Development of a High Temperature Hybrid CMNS Reactor, J. Condensed Matter Nucl. Sci. 6, (2012), p 24 www.iscmns.org/CMNS/JCMNS-Vol6.pdf
Celani F., Marano E.F., et al. Cu–Ni–Mn AlloyWires, with Improved Sub-micrometric Surfaces, J. Condensed Matter Nucl. Sci. 13, (2014), p 56 www.iscmns.org/CMNS/JCMNS-Vol13.pdf
Celani F., Spallone A., et al. Observation of Macroscopic Current and Thermal Anomalies, at High Temperature, by Hetero-structures in Thin and Long Constantan Wires Under H2 Gas, J. Condensed Matter Nucl. Sci. 19, (2016), p 29 www.iscmns.org/CMNS/JCMNS-Vol19.pdf
Celani F., Di Tommaso A., et al. The Zitterbewegung Interpretation of Quantum Mechanics as Theoretical Framework for Ultra-dense Deuterium and Low Energy Nuclear Reactions, J. Condensed Matter Nucl. Sci. 24, (2017), p 32 www.iscmns.org/CMNS/JCMNS-Vol24.pdf
Celani F., Di Tommaso A. O., et al. The Electron and Occam’s Razor, J. Condensed Matter Nucl. Sci. 25, (2017), p 76 www.iscmns.org/CMNS/JCMNS-Vol25.pdf
Celani F., Vasallo G., et al. The Electron and Occam’s Razor, J. Condensed Matter Nucl. Sci. 25, (2017), p 100 www.iscmns.org/CMNS/JCMNS-Vol25.pdf
Christianto V., Umniyati Y., et al. On a Plausible Role of Classical Electromagnetic Theory and Submicroscopic Physics to understand and Enhance Low Energy Nuclear Reaction: A Preliminary Review, J. Condensed Matter Nucl. Sci. 22, (2017), p 27 www.iscmns.org/CMNS/JCMNS-Vol22.pdf
Chubb S. R. Concerning the Role of Electromagnetism in Low-energy Nuclear Reactions, J. Condensed Matter Nucl. Sci. 4, (2011), p 213 www.iscmns.org/CMNS/JCMNS-Vol4.pdf
Chubb T. A., Chubb S. R. Overcoming the Coulomb Barrier in Cold Fusion, J. Condensed Matter Nucl. Sci. 2, (2009), p 51 www.iscmns.org/CMNS/JCMNS-Vol2.pdf
Cook N. D., Dallacasa V. LENR and Nuclear Structure Theory, J. Condensed Matter Nucl. Sci. 13, (2014), p 68 www.iscmns.org/CMNS/JCMNS-Vol13.pdf
Cook N. D. LENR Theory Requires a Proper Understanding of Nuclear Structure, J. Condensed Matter Nucl. Sci. 24, (2017), p 60 www.iscmns.org/CMNS/JCMNS-Vol24.pdf
Cravens D. Inhibition of LENR by Hydrogen within Gas-loaded Systems, J. Condensed Matter Nucl. Sci. 4, (2011), p 282 www.iscmns.org/CMNS/JCMNS-Vol4.pdf
Dash J., Solomon J., et al. Effect of Recrystallization on Heat Output and Surface Composition of Ti and Pd Cathodes, J. Condensed Matter Nucl. Sci. 13, (2014), p 80 www.iscmns.org/CMNS/JCMNS-Vol13.pdf
Davidson M. Off-mass-shell Particles and LENR, J. Condensed Matter Nucl. Sci. 19, (2016), p 46 www.iscmns.org/CMNS/JCMNS-Vol19.pdf
de Guerville F. Proton Conductors: Nanometric Cavities, H2 Precipitates under Pressure, and Rydberg Matter Formation, J. Condensed Matter Nucl. Sci. 21, (2016), p 26 www.iscmns.org/CMNS/JCMNS-Vol21.pdf
De Ninno A. Dynamics in Pd–H(D) Systems, J. Condensed Matter Nucl. Sci. 4, (2011), p 291 www.iscmns.org/CMNS/JCMNS-Vol4.pdf
DeChiaro L. F., Forsley L. P., et al. Strained Layer Ferromagnetism in Transition Metals and its Impact Upon Low Energy Nuclear Reactions, J. Condensed Matter Nucl. Sci. 17, (2015), p 1 www.iscmns.org/CMNS/JCMNS-Vol17.pdf
Didyk A. Yu., Wisniewski R. Changes Observed in the Elemental Composition of Palladium and Rhenium Specimens Irradiated in Dense Deuterium by gamma quanta with Boundary of Energy 23 MeV, J. Condensed Matter Nucl. Sci. 13, (2014), p 89 www.iscmns.org/CMNS/JCMNS-Vol13.pdf
Dmitriyeva O., Cantwell R., et al. Mechanisms for Heat Generation during Deuterium and Hydrogen Loading of Palladium Nanostructures, J. Condensed Matter Nucl. Sci. 8, (2012), p 29 www.iscmns.org/CMNS/JCMNS-Vol8.pdf
Dmitriyeva O., Cantwell R., et al. Using Bakeout to Eliminate Heat from H/D Exchange During Hydrogen Isotope Loading of Pd-impregnated Alumina Powder, J. Condensed Matter Nucl. Sci. 12, (2013), p 13 www.iscmns.org/CMNS/JCMNS-Vol12.pdf
Dmitriyeva O., Cantwell R., et al. Measurement Artifacts in Gas-loading Experiments, J. Condensed Matter Nucl. Sci. 13, (2014), p 106 www.iscmns.org/CMNS/JCMNS-Vol13.pdf
Dmitriyeva O., Cantwell R., et al. Numerical Modeling of H2 Molecule Formation within Near-surface Voids in Pd and Ni, J. Condensed Matter Nucl. Sci. 15, (2015), p 195 www.iscmns.org/CMNS/JCMNS-Vol15.pdf
Dominguez D. D., Kidwell D. A., et al. Are Oxide Interfaces Necessary in Fleischmann–Pons-type Experiments?, J. Condensed Matter Nucl. Sci. 8, (2012), p 219 www.iscmns.org/CMNS/JCMNS-Vol8.pdf
Dominguez D. D., Moser A. E., et al. Evidence for Excess Energy in Fleischmann–Pons-Type Electrochemical Experiments, J. Condensed Matter Nucl. Sci. 14, (2014), p 15 www.iscmns.org/CMNS/JCMNS-Vol14.pdf
Dong Z. M., Liang C. L., et al. Studies on Anomalous Phenomena of D/Pd Systems using a Gas-loading Process – A Stride Towards Neutrino Detection, J. Condensed Matter Nucl. Sci. 4, (2011), p 119 www.iscmns.org/CMNS/JCMNS-Vol4.pdf
Driscoll J., Horton M., et al. Issues Related to Reproducibility in a CMNS Experiment, J. Condensed Matter Nucl. Sci. 5, (2011), p 34 www.iscmns.org/CMNS/JCMNS-Vol5.pdf
Dubinko V., Laptev D., et al. Catalytic Mechanism of LENR in Quasicrystals based on Localized Anharmonic Vibrations and Phasons, J. Condensed Matter Nucl. Sci. 24, (2017), p 75 www.iscmns.org/CMNS/JCMNS-Vol24.pdf
Dubinko V. I. Low-energy Nuclear Reactions Driven by Discrete Breathers, J. Condensed Matter Nucl. Sci. 14, (2014), p 87 www.iscmns.org/CMNS/JCMNS-Vol14.pdf
Dubinko V. I. Quantum Tunneling in Breather ‘Nano-colliders’, J. Condensed Matter Nucl. Sci. 19, (2016), p 56 www.iscmns.org/CMNS/JCMNS-Vol19.pdf
Dubinko V. I. Nuclear Catalysis Mediated by Localized Anharmonic Vibrations, J. Condensed Matter Nucl. Sci. 23, (2017), p 45 www.iscmns.org/CMNS/JCMNS-Vol23.pdf
Dufour J. Very Sizeable Increase of Gravitation at Picometer Distance: A Novel Working Hypothesis., J. Condensed Matter Nucl. Sci. 1, (2007), p 47 www.iscmns.org/CMNS/JCMNS-Vol1.pdf
Dufour J. Nuclear Signatures to be Expected from Rossi Energy Amplifier, J. Condensed Matter Nucl. Sci. 8, (2012), p 124 www.iscmns.org/CMNS/JCMNS-Vol8.pdf
Dufour J. An Introduction to the Pico-chemistry Working Hypothesis, J. Condensed Matter Nucl. Sci. 10, (2013), p 40 www.iscmns.org/CMNS/JCMNS-Vol10.pdf
El-Boher A., Isaacson, W., et al. Final Report on Calorimetry-based Excess Heat Trials using Celani Treated NiCuMn (Constantan) Wires, J. Condensed Matter Nucl. Sci. 19, (2016), p 68 www.iscmns.org/CMNS/JCMNS-Vol19.pdf
Esko E. Anomalous Metals in Electrified Vacuum, J. Condensed Matter Nucl. Sci. 13, (2014), p 114 www.iscmns.org/CMNS/JCMNS-Vol13.pdf
Evans A. B. 4-Space Dirac Theory and LENR, J. Condensed Matter Nucl. Sci. 2, (2009), p 7 www.iscmns.org/CMNS/JCMNS-Vol2.pdf
Fisher J. Neutron Isotope Theory of LENR Processes, J. Condensed Matter Nucl. Sci. 15, (2015), p 183 www.iscmns.org/CMNS/JCMNS-Vol15.pdf
Fisher J. C. Palladium Fusion Triggered by Polyneutrons, J. Condensed Matter Nucl. Sci. 1, (2007), p 1 www.iscmns.org/CMNS/JCMNS-Vol1.pdf
Fredericks K. A. Possibility of Tachyon Monopoles Detected in Photographic Emulsions, J. Condensed Matter Nucl. Sci. 15, (2015), p 203 www.iscmns.org/CMNS/JCMNS-Vol15.pdf
French D. J. Patents and Cold Fusion, J. Condensed Matter Nucl. Sci. 13, (2014), p 118 www.iscmns.org/CMNS/JCMNS-Vol13.pdf
Frisone F. Tunneling Effect Enhanced by Lattice Screening as Main Cold Fusion Mechanism: A Brief Theoretical Overview, J. Condensed Matter Nucl. Sci. 1, (2007), p 16 www.iscmns.org/CMNS/JCMNS-Vol1.pdf
Frisone F. Nuclear Reactions in Condensed Matter: A Theoretical Study of D–D Reaction within Palladium Lattice by Means of the Coherence Theory of Matter, J. Condensed Matter Nucl. Sci. 1, (2007), p 27 www.iscmns.org/CMNS/JCMNS-Vol1.pdf
Frisone F. Calculation of Deuteron Interactions within Microcracks of a D2 Loaded Crystalline Lattice at Room Temperature, J. Condensed Matter Nucl. Sci. 1, (2007), p 41 www.iscmns.org/CMNS/JCMNS-Vol1.pdf
Frisone F. Nuclear Exothermic Reactions in Lattices Pd: A Theoretical Study of d–d Reaction, J. Condensed Matter Nucl. Sci. 8, (2012), p 1 www.iscmns.org/CMNS/JCMNS-Vol8.pdf
Frisone F. Nuclear Exothermic Reactions in Lattices: A Theoretical Study of D–D Reaction, J. Condensed Matter Nucl. Sci. 17, (2015), p 27 www.iscmns.org/CMNS/JCMNS-Vol17.pdf
Gao J., Zhang W., et al. Effects of D/Pd Ratio and Cathode Pretreatments on Excess Heat in Closed Pd|D2O+D2SO4 Electrolytic Cells, J. Condensed Matter Nucl. Sci. 24, (2017), p 42 www.iscmns.org/CMNS/JCMNS-Vol24.pdf
Godes R., George R., et al. Controlled Electron Capture and the Path toward Commercialization, J. Condensed Matter Nucl. Sci. 13, (2014), p 127 www.iscmns.org/CMNS/JCMNS-Vol13.pdf
Grimshaw T. W. Integrated Policymaking for Realizing Benefits and Mitigating Impacts of LENR, J. Condensed Matter Nucl. Sci. 19, (2016), p 88 www.iscmns.org/CMNS/JCMNS-Vol19.pdf
Hagelstein P., Chaudhary I. U. Energy Exchange Using Spin-Boson Models with Infinite Loss, J. Condensed Matter Nucl. Sci. 4, (2011), p 202 www.iscmns.org/CMNS/JCMNS-Vol4.pdf
Hagelstein P., Chaudhary I. Energy Exchange In The Lossy Spin-Boson Model, J. Condensed Matter Nucl. Sci. 5, (2011), p 52 www.iscmns.org/CMNS/JCMNS-Vol5.pdf
Hagelstein P., Chaudhary I. Dynamics in the Case of Coupled Degenerate States, J. Condensed Matter Nucl. Sci. 5, (2011), p 72 www.iscmns.org/CMNS/JCMNS-Vol5.pdf
Hagelstein P., Chaudhary I. Second-order Formulation and Scaling in the Lossy Spin–Boson Model, J. Condensed Matter Nucl. Sci. 5, (2011), p 87 www.iscmns.org/CMNS/JCMNS-Vol5.pdf
Hagelstein P., Chaudhary I. Local Approximation for the Lossy Spin–boson Model, J. Condensed Matter Nucl. Sci. 5, (2011), p 102 www.iscmns.org/CMNS/JCMNS-Vol5.pdf
Hagelstein P., Chaudhary I. Coherent Energy Exchange in the Strong Coupling Limit of the Lossy Spin–Boson Model, J. Condensed Matter Nucl. Sci. 5, (2011), p 116 www.iscmns.org/CMNS/JCMNS-Vol5.pdf
Hagelstein P., Chaudhary I. Generalization of the Lossy Spin–Boson Model to Donor and Receiver Systems, J. Condensed Matter Nucl. Sci. 5, (2011), p 140 www.iscmns.org/CMNS/JCMNS-Vol5.pdf
Hagelstein P., Chaudhary I. Errata and Comments on a Recent Set of Papers in Journal of Condensed Matter in Nuclear Science, J. Condensed Matter Nucl. Sci. 7, (2012), p 1 www.iscmns.org/CMNS/JCMNS-Vol7.pdf
Hagelstein P., Chaudhary I. Including Nuclear Degrees of Freedom in a Lattice Hamiltonian, J. Condensed Matter Nucl. Sci. 7, (2012), p 35 www.iscmns.org/CMNS/JCMNS-Vol7.pdf
Hagelstein P., Chaudhary I. Pulse and Amplitude Approximation for the Lossy Spin–Boson Model, J. Condensed Matter Nucl. Sci. 9, (2012), p 30 www.iscmns.org/CMNS/JCMNS-Vol9.pdf
Hagelstein P., Chaudhary I. Coupling between a Deuteron and a Lattice, J. Condensed Matter Nucl. Sci. 9, (2012), p 50 www.iscmns.org/CMNS/JCMNS-Vol9.pdf
Hagelstein P., Chaudhary I. U. Born–Oppenheimer and Fixed-point Models for Second-order Phonon Exchange in a Metal, J. Condensed Matter Nucl. Sci. 12, (2013), p 69 www.iscmns.org/CMNS/JCMNS-Vol12.pdf
Hagelstein P., Chaudhary I. U. Phonon–nuclear Coupling for Anomalies in Condensed Matter Nuclear Science, J. Condensed Matter Nucl. Sci. 12, (2013), p 105 www.iscmns.org/CMNS/JCMNS-Vol12.pdf
Hagelstein P. I., Swartz M. R. Transient Vacancy Phase States in Palladium after High Dose-rate Electron Beam Irradiation, J. Condensed Matter Nucl. Sci. 14, (2014), p 50 www.iscmns.org/CMNS/JCMNS-Vol14.pdf
Hagelstein P. L. Simple Parameterizations of the Deuteron—Deuteron Fusion Cross Sections, J. Condensed Matter Nucl. Sci. 3, (2010), p 31 www.iscmns.org/CMNS/JCMNS-Vol3.pdf
Hagelstein P. L. Neutron Yield for Energetic Deuterons in PdD and in D2, J. Condensed Matter Nucl. Sci. 3, (2010), p 35 www.iscmns.org/CMNS/JCMNS-Vol3.pdf
Hagelstein P. L. Secondary Neutron Yield in the Presence of Energetic Alpha Particles in PdD, J. Condensed Matter Nucl. Sci. 3, (2010), p 41 www.iscmns.org/CMNS/JCMNS-Vol3.pdf
Hagelstein P. L. On the connection between Ka X-rays and energetic alpha particles in Fleischmann–Pons experiments, J. Condensed Matter Nucl. Sci. 3, (2010), p 50 www.iscmns.org/CMNS/JCMNS-Vol3.pdf
Hagelstein P. L., Letts D., et al. Terahertz Difference Frequency Response of PdD in Two-laser Experiments, J. Condensed Matter Nucl. Sci. 3, (2010), p 59 www.iscmns.org/CMNS/JCMNS-Vol3.pdf
Hagelstein P. L., Letts D. Analysis of some experimental data from the two-laser experiment, J. Condensed Matter Nucl. Sci. 3, (2010), p 77 www.iscmns.org/CMNS/JCMNS-Vol3.pdf
Hagelstein P. L. Bird’s EyeView of Phonon Models for Excess Heat in the Fleischmann–Pons Experiment, J. Condensed Matter Nucl. Sci. 6, (2012), p 169 www.iscmns.org/CMNS/JCMNS-Vol6.pdf
Hagelstein P. L., Chaudhary I. U. Central and Tensor Contributions to the Phonon-exchange Matrix Element for the D2/4He Transition, J. Condensed Matter Nucl. Sci. 11, (2013), p 15 www.iscmns.org/CMNS/JCMNS-Vol11.pdf
Hagelstein P. L., Chaudhary I. U. Lossy Spin–boson Model with an Unstable Upper State and Extension to N-level Systems, J. Condensed Matter Nucl. Sci. 11, (2013), p 59 www.iscmns.org/CMNS/JCMNS-Vol11.pdf
Hagelstein P. L. Electron Mass Enhancement and the Widom–Larsen Model, J. Condensed Matter Nucl. Sci. 12, (2013), p 18 www.iscmns.org/CMNS/JCMNS-Vol12.pdf
Hagelstein P. L. Molecular D2 Near Vacancies in PdD and Related Problems, J. Condensed Matter Nucl. Sci. 13, (2014), p 138 www.iscmns.org/CMNS/JCMNS-Vol13.pdf
Hagelstein P. L., Letts D. Temperature Dependence of Excess Power in Two-laser Experiments, J. Condensed Matter Nucl. Sci. 13, (2014), p 165 www.iscmns.org/CMNS/JCMNS-Vol13.pdf
Hagelstein P. L., Chaudhary I. U. Models for Phonon–nuclear Interactions and Collimated X-ray Emission in the Karabut Experiment, J. Condensed Matter Nucl. Sci. 13, (2014), p 177 www.iscmns.org/CMNS/JCMNS-Vol13.pdf
Hagelstein P. L. Equation of State and Fugacity Models for H2 and for D2, J. Condensed Matter Nucl. Sci. 16, (2015), p 46 www.iscmns.org/CMNS/JCMNS-Vol16.pdf
Hagelstein P. L. Empirical Models for Octahedral and Tetrahedral Occupation in PdH and in PdD at High Loading, J. Condensed Matter Nucl. Sci. 17, (2015), p 35 www.iscmns.org/CMNS/JCMNS-Vol17.pdf
Hagelstein P. L. O-site and T-site Occupation of !-phase PdHx and PdDx, J. Condensed Matter Nucl. Sci. 17, (2015), p 67 www.iscmns.org/CMNS/JCMNS-Vol17.pdf
Hagelstein P. L. Models for the Phase Diagram of Palladium Hydride Including O-site and T-site Occupation, J. Condensed Matter Nucl. Sci. 20, (2016), p 54 www.iscmns.org/CMNS/JCMNS-Vol20.pdf
Hagelstein P. L. Quantum Composites: A Review, and New Results for Models for Condensed Matter Nuclear Science, J. Condensed Matter Nucl. Sci. 20, (2016), p 139 www.iscmns.org/CMNS/JCMNS-Vol20.pdf
Hagelstein P.L. Current Status of the Theory and Modeling Effort based on Fractionation, J. Condensed Matter Nucl. Sci. 19, (2016), p 98 www.iscmns.org/CMNS/JCMNS-Vol19.pdf
Hagelstein P.L. Statistical Mechanics Models for PdHx and PdDx, J. Condensed Matter Nucl. Sci. 24, (2017), p 87 www.iscmns.org/CMNS/JCMNS-Vol24.pdf
Hagelstein P.L., Chaudhary I.U. Coupling between the Center of Mass and Relative Degrees of Freedom in a Relativistic Quantum Composite and Applications, J. Condensed Matter Nucl. Sci. 24, (2017), p 114 www.iscmns.org/CMNS/JCMNS-Vol24.pdf
Henry-Couannier From Dark Gravity to LENR, J. Condensed Matter Nucl. Sci. 18, (2016), p 1 www.iscmns.org/CMNS/JCMNS-Vol18.pdf
Henry-Couannier F. The Dark side of Gravity and LENR, J. Condensed Matter Nucl. Sci. 21, (2016), p 59 www.iscmns.org/CMNS/JCMNS-Vol21.pdf
Hioki T., Azuma H., et al. Absorption Capacity and Heat Evolution with Loading of Hydrogen Isotope Gases for Pd Nanopowder and Pd/Ceramics Nanocomposite, J. Condensed Matter Nucl. Sci. 4, (2011), p 69 www.iscmns.org/CMNS/JCMNS-Vol4.pdf
Hioki T., Takahashi N., et al. Effects of Self-poisoning of Pd on the Deuterium Permeation Rate and Surface Elemental Analysis for Nuclear Transmutation, J. Condensed Matter Nucl. Sci. 6, (2012), p 64 www.iscmns.org/CMNS/JCMNS-Vol6.pdf
Hioki T., Sugimoto N., et al. Isotope Effect for Heat Generation upon Pressurizing Nano-Pd/Silica Systems with Hydrogen Isotope Gases, J. Condensed Matter Nucl. Sci. 13, (2014), p 223 www.iscmns.org/CMNS/JCMNS-Vol13.pdf
Hioki T., Ichiki A., et al. Stabilization of Nano-sized Pd Particles under Hydrogen Atmosphere, J. Condensed Matter Nucl. Sci. 24, (2017), p 123 www.iscmns.org/CMNS/JCMNS-Vol24.pdf
Hora H., Miley G., et al. Bose–Einstein Condensation and Inverted Rydberg States in Ultra-high Density Deuterium Clusters Related to Low Energy Nuclear Reactions, J. Condensed Matter Nucl. Sci. 13, (2014), p 234 www.iscmns.org/CMNS/JCMNS-Vol13.pdf
Itoh T., Iwamura Y., et al. Anomalous Excess Heat Generated by the Interaction between Nano-structured Pd/Ni Surface and D2 Gas, J. Condensed Matter Nucl. Sci. 24, (2017), p 179 www.iscmns.org/CMNS/JCMNS-Vol24.pdf
Iwamura Y., Itoh T., et al. Observation of Low Energy Nuclear Transmutation Reactions Induced by Deuterium Permeation through Multilayer Pd and CaO thin Film, J. Condensed Matter Nucl. Sci. 4, (2011), p 132 www.iscmns.org/CMNS/JCMNS-Vol4.pdf
Iwamura Y., Itoh T., et al. Recent Advances in Deuterium Permeation Transmutation Experiments, J. Condensed Matter Nucl. Sci. 10, (2013), p 63 www.iscmns.org/CMNS/JCMNS-Vol10.pdf
Iwamura Y., Itoh T., et al. Increase of Reaction Products in Deuterium Permeation-induced Transmutation, J. Condensed Matter Nucl. Sci. 13, (2014), p 242 www.iscmns.org/CMNS/JCMNS-Vol13.pdf
Iwamura Y., Kasagi J., et al. The Launch of a New Plan on Condensed Matter Nuclear Science at Tohoku University, J. Condensed Matter Nucl. Sci. 19, (2016), p 119 www.iscmns.org/CMNS/JCMNS-Vol19.pdf
Iwamura Y., Itoh T., et al. Replication Experiments at Tohoku University on Anomalous Heat Generation Using Nickel-based Binary Nanocomposites and Hydrogen Isotope Gas, J. Condensed Matter Nucl. Sci. 24, (2017), p 191 www.iscmns.org/CMNS/JCMNS-Vol24.pdf
Jiang S., Xu X., et al. Neutron Burst Emissions from Uranium Deuteride and Deuterium-loaded Titanium, J. Condensed Matter Nucl. Sci. 13, (2014), p 253 www.iscmns.org/CMNS/JCMNS-Vol13.pdf
Johnson R., Melich M. Weight of Evidence for the Fleischmann–Pons Effect, J. Condensed Matter Nucl. Sci. 4, (2011), p 225 www.iscmns.org/CMNS/JCMNS-Vol4.pdf
Karabut A. B., Karabut E. A. Experimental results on Excess Heat Power, Impurity Nuclides and X-ray Production in Experiments with a High-Voltage Electric Discharge System, J. Condensed Matter Nucl. Sci. 6, (2012), p 199 www.iscmns.org/CMNS/JCMNS-Vol6.pdf
Karabut A. B., Karabut E. A., et al. Spectral and Temporal Characteristics of X-ray Emission from Metal Electrodes in a High-current Glow Discharge, J. Condensed Matter Nucl. Sci. 6, (2012), p 217 www.iscmns.org/CMNS/JCMNS-Vol6.pdf
Karabut A. B., Karabut E. A. Experimental Results on Excess Power, Impurity Nuclides, and X-ray Production in Experiments with a High-voltage Electric Discharge System, J. Condensed Matter Nucl. Sci. 8, (2012), p 139 www.iscmns.org/CMNS/JCMNS-Vol8.pdf
Karabut A. B., Karabut E. A. Research into Excited 0.6–6.0 keV Energy Levels in the Cathode Solid Medium of Glow Discharge by X-ray Spectra Emission, J. Condensed Matter Nucl. Sci. 8, (2012), p 159 www.iscmns.org/CMNS/JCMNS-Vol8.pdf
Kasagi J., Honda Y. Pictorial Description for LENR in Linear Defects of a Lattice, J. Condensed Matter Nucl. Sci. 19, (2016), p 127 www.iscmns.org/CMNS/JCMNS-Vol19.pdf
Kidwell D. A., Imam M. A. Fabrication, Characterization, and Evaluation of Excess Heat in Zirconium–Nickel–Palladium Alloys, J. Condensed Matter Nucl. Sci. 8, (2012), p 208 www.iscmns.org/CMNS/JCMNS-Vol8.pdf
Kim Y. Bose–Einstein Condensate Theory of Deuteron Fusion in Metal, J. Condensed Matter Nucl. Sci. 4, (2011), p 188 www.iscmns.org/CMNS/JCMNS-Vol4.pdf
Kim Y. E., Ward T. E. Bose–Einstein Condensation Nuclear Fusion: Role of Monopole Transition, J. Condensed Matter Nucl. Sci. 6, (2012), p 101 www.iscmns.org/CMNS/JCMNS-Vol6.pdf
Kim Y. E. Conventional Nuclear Theory of Low-energy Nuclear Reactions in Metals: Alternative Approach to Clean Fusion Energy Generation, J. Condensed Matter Nucl. Sci. 13, (2014), p 264 www.iscmns.org/CMNS/JCMNS-Vol13.pdf
King P.J., Guffey M. J., et al. Attempted Replication of Excess Heat in the Letts Dual-laser Experiment, J. Condensed Matter Nucl. Sci. 20, (2016), p 1 www.iscmns.org/CMNS/JCMNS-Vol20.pdf
Kitamura A., Takahashi A., et al. Heat Evolution from Pd Nano-powders Exposed to High-pressure Hydrogen Isotopes and Associated Radiation Measurements, J. Condensed Matter Nucl. Sci. 4, (2011), p 56 www.iscmns.org/CMNS/JCMNS-Vol4.pdf
Kitamura A., Miyoshi Y., et al. Time-resolved Measurements of Loading Ratios and Heat Evolution in D2 (and H2)-Pd·Zr Mixed-oxide Systems, J. Condensed Matter Nucl. Sci. 5, (2011), p 42 www.iscmns.org/CMNS/JCMNS-Vol5.pdf
Kitamura A., Miyoshi Y., et al. Recent Progress in Gas-phase Hydrogen Isotope Absorption/Adsorption Experiments, J. Condensed Matter Nucl. Sci. 13, (2014), p 277 www.iscmns.org/CMNS/JCMNS-Vol13.pdf
Kitamura A., Takahashi A., et al. A Mass-Flow-Calorimetry System for Scaled-up Experiments on Anomalous Heat Evolution at Elevated Temperatures, J. Condensed Matter Nucl. Sci. 15, (2015), p 231 www.iscmns.org/CMNS/JCMNS-Vol15.pdf
Kitamura A., Takahashi A., et al. Effect of Minority Atoms of Binary Ni-based Nano-composites on Anomalous Heat Evolution under Hydrogen Absorption, J. Condensed Matter Nucl. Sci. 19, (2016), p 135 www.iscmns.org/CMNS/JCMNS-Vol19.pdf
Kitamura A., Takahashi A., et al. Collaborative Examination on Anomalous Heat Effect Using Nickel-based Binary Nanocomposites Supported by Zirconia, J. Condensed Matter Nucl. Sci. 24, (2017), p 202 www.iscmns.org/CMNS/JCMNS-Vol24.pdf
Kleehaus A., Elsner C. Potential Economic Impact of LENR Technology in Energy Markets, J. Condensed Matter Nucl. Sci. 13, (2014), p 290 www.iscmns.org/CMNS/JCMNS-Vol13.pdf
Klimov A., Grigorenko A., et al. High-energetic Nano-cluster Plasmoid and its Soft X-ray Radiation, J. Condensed Matter Nucl. Sci. 19, (2016), p 145 www.iscmns.org/CMNS/JCMNS-Vol19.pdf
Klimov A. Energy Release and Transmutation of Chemical Elements in Cold Heterogeneous Plasmoids, J. Condensed Matter Nucl. Sci. 19, (2016), p 155 www.iscmns.org/CMNS/JCMNS-Vol19.pdf
Kovacs A., Brown D., et al. Exothermic Reactions in the Partially Molten Li–Ni–Cu Alloy, J. Condensed Matter Nucl. Sci. 25, (2017), p 159 www.iscmns.org/CMNS/JCMNS-Vol25.pdf
Kowalski L. Comments on Codeposition Electrolysis Results, J. Condensed Matter Nucl. Sci. 3, (2010), p 1 www.iscmns.org/CMNS/JCMNS-Vol3.pdf
Kálmán P., Keszthelyi T. Cooperative Internal Conversion Process, J. Condensed Matter Nucl. Sci. 25, (2017), p 129 www.iscmns.org/CMNS/JCMNS-Vol25.pdf
Kálmán P., Keszthelyi T. Recoil Assisted Low Energy Nuclear Reactions, J. Condensed Matter Nucl. Sci. 25, (2017), p 142 www.iscmns.org/CMNS/JCMNS-Vol25.pdf
Lakshmanan A. Excess Energy Release During Na Metal Dissolution in a Dilute Epsom (MgSO4·7H2O), J. Condensed Matter Nucl. Sci. 9, (2012), p 64 www.iscmns.org/CMNS/JCMNS-Vol9.pdf
Lakshmanan A. Anomalous Heat Energy Released through Cavitation-Coulombic Repulsion Oscillations Following Sodium Metal Dissolution in a Dilute Epsom Solution – Plausible Mechanisms, J. Condensed Matter Nucl. Sci. 9, (2012), p 72 www.iscmns.org/CMNS/JCMNS-Vol9.pdf
Lee K., , Jang H., et al. A Change of Tritium Content in D2O Solutions during Pd/D Co-deposition, J. Condensed Matter Nucl. Sci. 13, (2014), p 294 www.iscmns.org/CMNS/JCMNS-Vol13.pdf
Letts D. Codeposition Methods: A Search for Enabling Factors, J. Condensed Matter Nucl. Sci. 4, (2011), p 81 www.iscmns.org/CMNS/JCMNS-Vol4.pdf
Letts D., Hagelstein P. L. Modified Szpak Protocol for Excess Heat, J. Condensed Matter Nucl. Sci. 6, (2012), p 44 www.iscmns.org/CMNS/JCMNS-Vol6.pdf
Letts D. Remembering John Bockris, J. Condensed Matter Nucl. Sci. 16, (2015), p 10 www.iscmns.org/CMNS/JCMNS-Vol16.pdf
Lewis E. Errata and More Evidence of Microscopic Ball Lightning (Plasmoids) in CF Devices, J. Condensed Matter Nucl. Sci. 7, (2012), p 8 www.iscmns.org/CMNS/JCMNS-Vol7.pdf
Lewis E. H. Tracks of Ball Lightning in Apparatus?, J. Condensed Matter Nucl. Sci. 2, (2009), p 13 www.iscmns.org/CMNS/JCMNS-Vol2.pdf
Li X. Z. The Conjecture of the Neutrino Emission from Metal Hydrides, J. Condensed Matter Nucl. Sci. 1, (2007), p 11 www.iscmns.org/CMNS/JCMNS-Vol1.pdf
Li X. Z., Dong Z. M., et al. 'Excess Heat' in Ni–H Systems and Selective Resonant Tunneling, J. Condensed Matter Nucl. Sci. 13, (2014), p 299 www.iscmns.org/CMNS/JCMNS-Vol13.pdf
Li X. Z., Dong Z. M., et al. Hydrogen–lithium Low Energy Resonant Electron-capture and Bethe’s Solar Energy Model, J. Condensed Matter Nucl. Sci. 25, (2017), p 181 www.iscmns.org/CMNS/JCMNS-Vol25.pdf
Liang C. L., Dong Z. M., et al. Lithium – An Important Additive in Condensed Matter Nuclear Science, J. Condensed Matter Nucl. Sci. 19, (2016), p 164 www.iscmns.org/CMNS/JCMNS-Vol19.pdf
Liu B., Dong Z. M., et al. Nuclear Transmutation on a Thin Pd Film in a Gas-loading D/Pd System, J. Condensed Matter Nucl. Sci. 13, (2014), p 311 www.iscmns.org/CMNS/JCMNS-Vol13.pdf
Liu Fusui, Hou Yumin Theory of Fusion During Acoustic Cavitation in C3D6O Liquid, J. Condensed Matter Nucl. Sci. 1, (2007), p 142 www.iscmns.org/CMNS/JCMNS-Vol1.pdf
Lukosi E., Prelas M., et al. Diamond-based Radiation Sensor for LENR Experiments. Part 1: Sensor Development and Characterization, J. Condensed Matter Nucl. Sci. 13, (2014), p 319 www.iscmns.org/CMNS/JCMNS-Vol13.pdf
Lukosi E., Prelas M., et al. Diamond-based Radiation Sensor for LENR Experiments. Part 2: Experimental Analysis of Deuterium-loaded Palladium, J. Condensed Matter Nucl. Sci. 13, (2014), p 329 www.iscmns.org/CMNS/JCMNS-Vol13.pdf
Luo N., Miley G. H. First-principles Studies of Electronic and Ionic Transport in Palladium Hydrides/ Deuterides, J. Condensed Matter Nucl. Sci. 6, (2012), p 241 www.iscmns.org/CMNS/JCMNS-Vol6.pdf
M. Verner G. M., Swartz R. M., et al. Development of a Cold Fusion Science and Engineering Course, J. Condensed Matter Nucl. Sci. 22, (2017), p 47 www.iscmns.org/CMNS/JCMNS-Vol22.pdf
Mastromatteo U., Bertelè A., et al. Hydrogen Absorption and Excess Heat in a Constantan Wire with Nanostructured Surface, J. Condensed Matter Nucl. Sci. 15, (2015), p 240 www.iscmns.org/CMNS/JCMNS-Vol15.pdf
Mastromatteo U. LENR Anomalies in Pd–H2 Systems Submitted to Laser Stimulation, J. Condensed Matter Nucl. Sci. 19, (2016), p 173 www.iscmns.org/CMNS/JCMNS-Vol19.pdf
Mathews S. A., Nagel D., et al. Surface Preparation of Materials for LENR: Femtosecond Laser Processing, J. Condensed Matter Nucl. Sci. 15, (2015), p 268 www.iscmns.org/CMNS/JCMNS-Vol15.pdf
McCarthy W. H. Water-free Replication of Pons–Fleischmann LENR, J. Condensed Matter Nucl. Sci. 15, (2015), p 256 www.iscmns.org/CMNS/JCMNS-Vol15.pdf
McKubre M. Calorimetric Studies of the Destructive Stimulation of Palladium and Nickel FineWires, J. Condensed Matter Nucl. Sci. 13, (2014), p 337 www.iscmns.org/CMNS/JCMNS-Vol13.pdf
McKubre M. C. H., Tanzella F. L. Cold Fusion, LENR, CMNS, FPE: One Perspective on the State of the Science Based on Measurements Made at SRI, J. Condensed Matter Nucl. Sci. 4, (2011), p 32 www.iscmns.org/CMNS/JCMNS-Vol4.pdf
McKubre M. C. H., Tanzella F. L. What is needed in LENR/FPE studies?, J. Condensed Matter Nucl. Sci. 8, (2012), p 187 www.iscmns.org/CMNS/JCMNS-Vol8.pdf
McKubre M. C. H., Tanzella F. Flux Effects in Metal Hydrogen Loading: Enhanced Mass Transfer, J. Condensed Matter Nucl. Sci. 15, (2015), p 1 www.iscmns.org/CMNS/JCMNS-Vol15.pdf
McKubre M. C. H. Personal Recollections of John O’Mara Bockris, J. Condensed Matter Nucl. Sci. 16, (2015), p 11 www.iscmns.org/CMNS/JCMNS-Vol16.pdf
McKubre M.C.H. Cold Fusion – CMNS – LENR; Past, Present and Projected Future Status, J. Condensed Matter Nucl. Sci. 19, (2016), p 183 www.iscmns.org/CMNS/JCMNS-Vol19.pdf
McKubre M.C.H. CMNS Research – Past, Present and Future, J. Condensed Matter Nucl. Sci. 24, (2017), p 15 www.iscmns.org/CMNS/JCMNS-Vol24.pdf
Metzler F., Hagelstein P.L., et al. Developing Phonon–Nuclear Coupling Experiments with Vibrating Plates and Radiation Detectors, J. Condensed Matter Nucl. Sci. 24, (2017), p 98 www.iscmns.org/CMNS/JCMNS-Vol24.pdf
Meulenberg A., Sinha K. P. Tunneling Beneath the 4He* Fragmentation Energy, J. Condensed Matter Nucl. Sci. 4, (2011), p 241 www.iscmns.org/CMNS/JCMNS-Vol4.pdf
Meulenberg A. From the Naught Orbit to the
Meulenberg A. Femto-atoms and Transmutation, J. Condensed Matter Nucl. Sci. 13, (2014), p 346 www.iscmns.org/CMNS/JCMNS-Vol13.pdf
Meulenberg A., Sinha K. P. Deep-Orbit-Electron Radiation Emission in Decay from
Meulenberg A., Sinha K. P. Deep-electron Orbits in Cold Fusion, J. Condensed Matter Nucl. Sci. 13, (2014), p 368 www.iscmns.org/CMNS/JCMNS-Vol13.pdf
Meulenberg A., Sinha K. P. New Visions of Physics through the Microscope of Cold Fusion, J. Condensed Matter Nucl. Sci. 13, (2014), p 378 www.iscmns.org/CMNS/JCMNS-Vol13.pdf
Meulenberg A. Femto-Helium and PdD Transmutation, J. Condensed Matter Nucl. Sci. 15, (2015), p 106 www.iscmns.org/CMNS/JCMNS-Vol15.pdf
Meulenberg A. Pictorial Description for LENR in Linear Defects of a Lattice, J. Condensed Matter Nucl. Sci. 15, (2015), p 117 www.iscmns.org/CMNS/JCMNS-Vol15.pdf
Meulenberg A. Radiation Coupling: Nuclear Protons to Deep-Orbit-Electrons, then to the Lattice, J. Condensed Matter Nucl. Sci. 15, (2015), p 125 www.iscmns.org/CMNS/JCMNS-Vol15.pdf
Meulenberg A., Paillet J. L. Nature of the Deep-Dirac Levels, J. Condensed Matter Nucl. Sci. 19, (2016), p 192 www.iscmns.org/CMNS/JCMNS-Vol19.pdf
Meulenberg A., Paillet J. L. Basis for Femto-molecules and -Ions Created from Femto-atoms, J. Condensed Matter Nucl. Sci. 19, (2016), p 202 www.iscmns.org/CMNS/JCMNS-Vol19.pdf
Meulenberg A., Paillet J. L. Implications of the Electron Deep Orbits for Cold Fusion and Physics – Deep-orbit-electron Models in LENR: Present and Future, J. Condensed Matter Nucl. Sci. 24, (2017), p 214 www.iscmns.org/CMNS/JCMNS-Vol24.pdf
Meulenberg A., Paillet J. L. Physical Reasons for Accepting the Deep-Dirac Levels– Physical Reality vs Mathematical Models in LENR, J. Condensed Matter Nucl. Sci. 24, (2017), p 230 www.iscmns.org/CMNS/JCMNS-Vol24.pdf
Miles M. Investigations of Possible Shuttle Reactions in Co-deposition Systems, J. Condensed Matter Nucl. Sci. 8, (2012), p 12 www.iscmns.org/CMNS/JCMNS-Vol8.pdf
Miles M. Conventional Nuclear Theory of Low-energy Nuclear Reactions in Examples of Isoperibolic Calorimetry in the Cold Fusion Controversy, J. Condensed Matter Nucl. Sci. 13, (2014), p 392 www.iscmns.org/CMNS/JCMNS-Vol13.pdf
Miles M. Co-deposition of Palladium and other Transition Metals in H2O and D2O Solutions, J. Condensed Matter Nucl. Sci. 13, (2014), p 401 www.iscmns.org/CMNS/JCMNS-Vol13.pdf
Miles M. H., Fleischmann M. Measurements of Excess Power Effects In Pd/D2O Systems Using a New Isoperibolic Calorimeter, J. Condensed Matter Nucl. Sci. 4, (2011), p 45 www.iscmns.org/CMNS/JCMNS-Vol4.pdf
Miles M. H., Hagelstein P. L. New analysis of MIT Calorimetric Errors, J. Condensed Matter Nucl. Sci. 8, (2012), p 132 www.iscmns.org/CMNS/JCMNS-Vol8.pdf
Miles M. H. Thermodynamic and Kinetic Observations Concerning the D + D Fusion Reaction for the Pd/D System, J. Condensed Matter Nucl. Sci. 16, (2015), p 17 www.iscmns.org/CMNS/JCMNS-Vol16.pdf
Miles M. H. Excerpts From Martin Fleischmann Letters, J. Condensed Matter Nucl. Sci. 19, (2016), p 210 www.iscmns.org/CMNS/JCMNS-Vol19.pdf
Miles M.H. The Fleischmann–Pons Calorimetric Methods, Equations and New Applications, J. Condensed Matter Nucl. Sci. 24, (2017), p 1 www.iscmns.org/CMNS/JCMNS-Vol24.pdf
Miley G., Yang X., et al. Ultra-High Density Deuteron-cluster Electrode for Low-energy Nuclear Reactions, J. Condensed Matter Nucl. Sci. 4, (2011), p 256 www.iscmns.org/CMNS/JCMNS-Vol4.pdf
Miley G., Yang X., et al. Use of D/H Clusters in LENR and Recent Results from Gas-Loaded Nanoparticle-type Clusters, J. Condensed Matter Nucl. Sci. 13, (2014), p 411 www.iscmns.org/CMNS/JCMNS-Vol13.pdf
Miyoshi Y., Sakoh H., et al. Effect of Forced Oxidation on Hydrogen Isotope Absorption/Adsorption Characteristics of Pd–Ni–Zr Oxide Compounds, J. Condensed Matter Nucl. Sci. 10, (2013), p 46 www.iscmns.org/CMNS/JCMNS-Vol10.pdf
Mizuno T. Method of Controlling a Chemically Induced Nuclear Reaction in Metal Nanoparticles, J. Condensed Matter Nucl. Sci. 13, (2014), p 422 www.iscmns.org/CMNS/JCMNS-Vol13.pdf
Mizuno T. Observation of Excess Heat by Activated Metal and Deuterium Gas, J. Condensed Matter Nucl. Sci. 25, (2017), p 1 www.iscmns.org/CMNS/JCMNS-Vol25.pdf
Mosier-Boss P. A., Forsley L. P. G., et al. Comments on Codeposition Electrolysis Results: A Response to Kowalski, J. Condensed Matter Nucl. Sci. 3, (2010), p 4 www.iscmns.org/CMNS/JCMNS-Vol3.pdf
Mosier-Boss P. A., Dea J. Y., et al. Review of Twenty Years of LENR Research Using Pd/D Co-deposition, J. Condensed Matter Nucl. Sci. 4, (2011), p 173 www.iscmns.org/CMNS/JCMNS-Vol4.pdf
Mosier-Boss P. A., Gordon F. E., et al. Characterization of Neutrons Emitted during Pd/D Co-deposition, J. Condensed Matter Nucl. Sci. 6, (2012), p 13 www.iscmns.org/CMNS/JCMNS-Vol6.pdf
Mosier-Boss P. A. A Review on Nuclear Products Generated During Low-Energy Nuclear Reactions (LENR), J. Condensed Matter Nucl. Sci. 6, (2012), p 135 www.iscmns.org/CMNS/JCMNS-Vol6.pdf
Mosier-Boss P. A., Forsley L.P., et al. How the Flawed Journal Review Process Impedes Paradigm Shifting Discoveries, J. Condensed Matter Nucl. Sci. 12, (2013), p 1 www.iscmns.org/CMNS/JCMNS-Vol12.pdf
Mosier-Boss P. A. It is Not Low Energy – But it is Nuclear, J. Condensed Matter Nucl. Sci. 13, (2014), p 432 www.iscmns.org/CMNS/JCMNS-Vol13.pdf
Mosier-Boss P. A., Forsley L. P. G., et al. The Use of CR-39 Detectors in LENR Experiments, J. Condensed Matter Nucl. Sci. 14, (2014), p 29 www.iscmns.org/CMNS/JCMNS-Vol14.pdf
Murase A., Takahashi N., et al. TOF-SIMS Investigation on Nuclear Transmutation from Sr to Mo with Deuterium Permeation through Multi-layered Pd/CaO, J. Condensed Matter Nucl. Sci. 6, (2012), p 34 www.iscmns.org/CMNS/JCMNS-Vol6.pdf
Nagel D. Characteristics and Energetics of Craters in LENR Experimental Materials, J. Condensed Matter Nucl. Sci. 10, (2013), p 1 www.iscmns.org/CMNS/JCMNS-Vol10.pdf
Nagel D. Evidence from LENR Experiments for Bursts of Heat, Sound, EM Radiation and Particles and for Micro-explosions, J. Condensed Matter Nucl. Sci. 13, (2014), p 443 www.iscmns.org/CMNS/JCMNS-Vol13.pdf
Nagel D., Swanson R. A. LENR Excess Heat may not be Entirely from Nuclear Reactions, J. Condensed Matter Nucl. Sci. 15, (2015), p 279 www.iscmns.org/CMNS/JCMNS-Vol15.pdf
Nagel D. J. Hot and Cold Fusion for Energy Generation, J. Condensed Matter Nucl. Sci. 4, (2011), p 1 www.iscmns.org/CMNS/JCMNS-Vol4.pdf
Nagel D. J., Moser A.E., et al. High Energy Density and Power Density Events in Lattice-enabled Nuclear Reaction Experiments and Generators, J. Condensed Matter Nucl. Sci. 19, (2016), p 1 www.iscmns.org/CMNS/JCMNS-Vol19.pdf
Naitoh K., Tuschiya J. Fundamental Experimental Tests toward Future Cold Fusion Engine Based on Pointcompression due to Supermulti-jets Colliding with Pulse (Fusine), J. Condensed Matter Nucl. Sci. 24, (2017), p 236 www.iscmns.org/CMNS/JCMNS-Vol24.pdf
Narayanaswamy C.R. Observation of Anomalous Production of Si and Fe in an Arc Furnace Driven Ferro Silicon Smelting Plant at levels of Tons per day, J. Condensed Matter Nucl. Sci. 24, (2017), p 244 www.iscmns.org/CMNS/JCMNS-Vol24.pdf
Narita S., Neichi K., et al. Evaluation of Uncertainties in Measurement of Isotopic Abundance by Semi-quantitative Analysis with TOF-SIMS, J. Condensed Matter Nucl. Sci. 11, (2013), p 93 www.iscmns.org/CMNS/JCMNS-Vol11.pdf
Nassisi V., Carettom G., et al. Modification of Pd–H2 and Pd–D2 Thin Films Processed by He–Ne Laser, J. Condensed Matter Nucl. Sci. 5, (2011), p 1 www.iscmns.org/CMNS/JCMNS-Vol5.pdf
Neuville S. Perspective on Low Energy Bethe Nuclear Fusion Reactor with Quantum Electronic Atomic Rearrangement of Carbon, J. Condensed Matter Nucl. Sci. 23, (2017), p 91 www.iscmns.org/CMNS/JCMNS-Vol23.pdf
Okubo K., Umeno K. Physical Model of Energy Fluctuation Divergence, J. Condensed Matter Nucl. Sci. 24, (2017), p 252 www.iscmns.org/CMNS/JCMNS-Vol24.pdf
Oriani R. A. Nuclear Particles Generated by Electrolysis – a Review, J. Condensed Matter Nucl. Sci. 6, (2012), p 108 www.iscmns.org/CMNS/JCMNS-Vol6.pdf
Orondo P., Hagelstein P. I. Basic Physics Model for PdH Thermodynamics, J. Condensed Matter Nucl. Sci. 13, (2014), p 149 www.iscmns.org/CMNS/JCMNS-Vol13.pdf
Paillet J.L., Meulenberg A. Arguments for the Anomalous Solutions of the Dirac Equations, J. Condensed Matter Nucl. Sci. 18, (2016), p 50 www.iscmns.org/CMNS/JCMNS-Vol18.pdf
Paillet J.L., Meulenberg A. Basis for Electron Deep Orbits of the Hydrogen Atom, J. Condensed Matter Nucl. Sci. 19, (2016), p 230 www.iscmns.org/CMNS/JCMNS-Vol19.pdf
Paillet J.L., Meulenberg A. Relativity and Electron Deep Orbits of the Hydrogen Atom, J. Condensed Matter Nucl. Sci. 21, (2016), p 40 www.iscmns.org/CMNS/JCMNS-Vol21.pdf
Paillet J.L., Meulenberg A. Electron Deep Orbits of the Hydrogen Atom, J. Condensed Matter Nucl. Sci. 23, (2017), p 62 www.iscmns.org/CMNS/JCMNS-Vol23.pdf
Paillet J.L., Meulenberg A. Advance on Electron Deep Orbits of the Hydrogen Atom, J. Condensed Matter Nucl. Sci. 24, (2017), p 258 www.iscmns.org/CMNS/JCMNS-Vol24.pdf
Park S., Gordon F. Cold Fusion – from the Laboratory to the World. Setting the Stage for ICCF-17, J. Condensed Matter Nucl. Sci. 13, (2014), p 1 www.iscmns.org/CMNS/JCMNS-Vol13.pdf
Parkhomov A. G., Belousova E.O. Research into Heat Generators Similar to High-temperature Rossi Reactor, J. Condensed Matter Nucl. Sci. 19, (2016), p 244 www.iscmns.org/CMNS/JCMNS-Vol19.pdf
Passel T. The Case for Deuteron Stripping with Metal Nuclei as the Source of the Fleischmann–Pons Excess Heat Effect, J. Condensed Matter Nucl. Sci. 15, (2015), p 288 www.iscmns.org/CMNS/JCMNS-Vol15.pdf
Pease D., Azizi O., et al. Search for Low-energy X-ray and Particle Emissions from an Electrochemical Cell, J. Condensed Matter Nucl. Sci. 19, (2016), p 257 www.iscmns.org/CMNS/JCMNS-Vol19.pdf
Peter L. Hagelstein Probabilistic Models for Beam, Spot, and Line Emission for Collimated X-ray Emission in the Karabut Experiment, J. Condensed Matter Nucl. Sci. 22, (2017), p 53 www.iscmns.org/CMNS/JCMNS-Vol22.pdf
Prelas M., Lukosi E. Neutron Emission from Cryogenically Cooled Metals Under Thermal Shock, J. Condensed Matter Nucl. Sci. 13, (2014), p 455 www.iscmns.org/CMNS/JCMNS-Vol13.pdf
Rajeev K.P., Gaur D. Evidence for Nuclear Transmutations in Ni–H Electrolysis, J. Condensed Matter Nucl. Sci. 24, (2017), p 278 www.iscmns.org/CMNS/JCMNS-Vol24.pdf
Ritchie B. Compatibility of Hydrino States and Quantum Mechanics, J. Condensed Matter Nucl. Sci. 11, (2013), p 101 www.iscmns.org/CMNS/JCMNS-Vol11.pdf
Ritchie B. Neutrino Equation of Motion and Neutrino–electron Bound Pairs in LENR, J. Condensed Matter Nucl. Sci. 12, (2013), p 41 www.iscmns.org/CMNS/JCMNS-Vol12.pdf
Roarty B. P., Walker C. J. Protocol for a Silicate-based LENR Using Electrodes of Various Metals, J. Condensed Matter Nucl. Sci. 10, (2013), p 30 www.iscmns.org/CMNS/JCMNS-Vol10.pdf
Rothwell J. The Future May be Better than You Think, J. Condensed Matter Nucl. Sci. 13, (2014), p 464 www.iscmns.org/CMNS/JCMNS-Vol13.pdf
Rothwell J. Lessons from Cold Fusion Archives and from History, J. Condensed Matter Nucl. Sci. 15, (2015), p 321 www.iscmns.org/CMNS/JCMNS-Vol15.pdf
Ruer J. Simulation of Crater Formation on LENR Cathodes Surfaces, J. Condensed Matter Nucl. Sci. 12, (2013), p 54 www.iscmns.org/CMNS/JCMNS-Vol12.pdf
Ruer J. Response to Comment on the Article ‘Simulation of Crater Formation on LENR Cathodes Surfaces’, J. Condensed Matter Nucl. Sci. 14, (2014), p 5 www.iscmns.org/CMNS/JCMNS-Vol14.pdf
Ruer J. Characterization of Energy Fluxes in LENR Reactors –Excess Heat,Coefficient of Performance and Conditions for Self-sustained Operation, J. Condensed Matter Nucl. Sci. 21, (2016), p 13 www.iscmns.org/CMNS/JCMNS-Vol21.pdf
Ruer J. Basic Design Considerations for Industrial LENR Reactors, J. Condensed Matter Nucl. Sci. 22, (2017), p 7 www.iscmns.org/CMNS/JCMNS-Vol22.pdf
Ruer J. Simulation of the Behavior of Exotic Neutral Particles by a Monte-Carlo Modelisation, J. Condensed Matter Nucl. Sci. 23, (2017), p 27 www.iscmns.org/CMNS/JCMNS-Vol23.pdf
Rusetskiy A., Bagulya A. V., et al. Investigation of Enhancement and Stimulation of DD-reaction Yields in Crystalline Deuterated Heterostructures at Low Energies using the HELIS Ion Accelerator, J. Condensed Matter Nucl. Sci. 19, (2016), p 264 www.iscmns.org/CMNS/JCMNS-Vol19.pdf
Sakoh H., Miyoshi Y., et al. Hydrogen Isotope Absorption and Heat Release Characteristics of a Ni-based Sample, J. Condensed Matter Nucl. Sci. 13, (2014), p 471 www.iscmns.org/CMNS/JCMNS-Vol13.pdf
Savrasov A., Prokopenko V., et al. CR-39 Detector Track Characterization in Experiments with Pd/D Co-deposition, J. Condensed Matter Nucl. Sci. 22, (2017), p 1 www.iscmns.org/CMNS/JCMNS-Vol22.pdf
Savvatimova I. B. Transmutation of Elements in Low-energy Glow Discharge and the Associated Processes, J. Condensed Matter Nucl. Sci. 6, (2012), p 181 www.iscmns.org/CMNS/JCMNS-Vol6.pdf
Sawada T. A Particle Physicist’s View on the Nuclear Cold Fusion Reaction, J. Condensed Matter Nucl. Sci. 1, (2007), p 6 www.iscmns.org/CMNS/JCMNS-Vol1.pdf
Sawada T. Underlying Mechanism of the Nuclear of Implied by the Energy–momentum Conservation[ I ], J. Condensed Matter Nucl. Sci. 6, (2012), p 118 www.iscmns.org/CMNS/JCMNS-Vol6.pdf
Scarborough T. A., Duncan R., et al. The Center to Study Anomalous Heat Effects [AHE] at Texas Tech University, J. Condensed Matter Nucl. Sci. 19, (2016), p 274 www.iscmns.org/CMNS/JCMNS-Vol19.pdf
Scholkmann F., Mizuno T., et al. Statistical Analysis of Unexpected Daily Variations in an Electrochemical Transmutation Experiment, J. Condensed Matter Nucl. Sci. 8, (2012), p 37 www.iscmns.org/CMNS/JCMNS-Vol8.pdf
Scholkmann F., Nagel D. Statistical Analysis of Transmutation Data from Low-energy Nuclear Reaction Experiments and Comparison with a Model-based Prediction of Widom and Larsen, J. Condensed Matter Nucl. Sci. 13, (2014), p 485 www.iscmns.org/CMNS/JCMNS-Vol13.pdf
Scholkmann F., Nagel D. J. Is the Abundance of Elements in Earth’s Crust Correlated with LENR Transmutation Rates?, J. Condensed Matter Nucl. Sci. 19, (2016), p 281 www.iscmns.org/CMNS/JCMNS-Vol19.pdf
Scholkmann F., Nagel D., et al. Electromagnetic Emission in the kHz to GHz Range Associated with Heat Production During Electrochemical Loading of Deuterium into Palladium: A Summary and Analysis of Results Obtained by Different Research Groups, J. Condensed Matter Nucl. Sci. 19, (2016), p 325 www.iscmns.org/CMNS/JCMNS-Vol19.pdf
Sinha K. P., Meulenberg A. Lochon-mediated Low-energy Nuclear Reactionsl, J. Condensed Matter Nucl. Sci. 6, (2012), p 55 www.iscmns.org/CMNS/JCMNS-Vol6.pdf
Sinha K. P., Meulenberg A. Quantum-correlated Fluctuations, Phonon-induced Bond Polarization, Enhanced Tunneling, and Low-energy Nuclear Reactions in Condensed Matter, J. Condensed Matter Nucl. Sci. 8, (2012), p 105 www.iscmns.org/CMNS/JCMNS-Vol8.pdf
Srinivasan M. Neutron Emission in Bursts and Hot Spots: Signature of Micro-Nuclear Explosions?, J. Condensed Matter Nucl. Sci. 4, (2011), p 161 www.iscmns.org/CMNS/JCMNS-Vol4.pdf
Srinivasan M. Transmutations and Isotopic Shifts in LENR Experiments. An Overview, J. Condensed Matter Nucl. Sci. 13, (2014), p 495 www.iscmns.org/CMNS/JCMNS-Vol13.pdf
Srinivasan M. Revisiting the Early BARC Tritium Results, J. Condensed Matter Nucl. Sci. 15, (2015), p 137 www.iscmns.org/CMNS/JCMNS-Vol15.pdf
Storms E., Grimshaw T. W. Judging the Validity of the Fleischmann and Pons Effect, J. Condensed Matter Nucl. Sci. 3, (2010), p 9 www.iscmns.org/CMNS/JCMNS-Vol3.pdf
Storms E., Scanlan B. What is Real about Cold Fusion and What Explanations are Plausible?, J. Condensed Matter Nucl. Sci. 4, (2011), p 17 www.iscmns.org/CMNS/JCMNS-Vol4.pdf
Storms E. An Explanation of Low-energy Nuclear Reactions (Cold Fusion), J. Condensed Matter Nucl. Sci. 9, (2012), p 86 www.iscmns.org/CMNS/JCMNS-Vol9.pdf
Storms E. The Role of Voids as the Location of LENR, J. Condensed Matter Nucl. Sci. 11, (2013), p 123 www.iscmns.org/CMNS/JCMNS-Vol11.pdf
Storms E., Scanlan B. Nature of Energetic Radiation Emitted from a Metal Exposed to H2, J. Condensed Matter Nucl. Sci. 11, (2013), p 142 www.iscmns.org/CMNS/JCMNS-Vol11.pdf
Storms E. Explaining Cold Fusion, J. Condensed Matter Nucl. Sci. 15, (2015), p 295 www.iscmns.org/CMNS/JCMNS-Vol15.pdf
Storms E. In the Spirit of John Bockris, J. Condensed Matter Nucl. Sci. 16, (2015), p 8 www.iscmns.org/CMNS/JCMNS-Vol16.pdf
Storms E. Anomalous Energy Produced by PdD, J. Condensed Matter Nucl. Sci. 20, (2016), p 81 www.iscmns.org/CMNS/JCMNS-Vol20.pdf
Storms E. How Basic Behavior of LENR can Guide. A Search for an Explanation, J. Condensed Matter Nucl. Sci. 20, (2016), p 100 www.iscmns.org/CMNS/JCMNS-Vol20.pdf
Stringham R. Model for Sonofusion, J. Condensed Matter Nucl. Sci. 4, (2011), p 304 www.iscmns.org/CMNS/JCMNS-Vol4.pdf
Stringham R. Sonofusion: Ultrasound-Activated He Production in Circulating D2O, J. Condensed Matter Nucl. Sci. 14, (2014), p 79 www.iscmns.org/CMNS/JCMNS-Vol14.pdf
Stringham R. Helium Measurements From Target Foils, LANL and PNNL, 1994, J. Condensed Matter Nucl. Sci. 24, (2017), p 284 www.iscmns.org/CMNS/JCMNS-Vol24.pdf
Stringham R. S. When Bubble Cavitation becomes Sonofusion, J. Condensed Matter Nucl. Sci. 6, (2012), p 1 www.iscmns.org/CMNS/JCMNS-Vol6.pdf
Stringham R. S. Model for Electromagnetic pulsed BEC Experiments, J. Condensed Matter Nucl. Sci. 8, (2012), p 75 www.iscmns.org/CMNS/JCMNS-Vol8.pdf
Stringham R. S. Sonofusion’s Transient Condensate Clusters, J. Condensed Matter Nucl. Sci. 13, (2014), p 505 www.iscmns.org/CMNS/JCMNS-Vol13.pdf
Stringham R. S. Conservation of E and M, Single Cavitation Heat Events, J. Condensed Matter Nucl. Sci. 15, (2015), p 55 www.iscmns.org/CMNS/JCMNS-Vol15.pdf
Swartz M., Verner, G., et al. Amplification and Restoration of Energy Gain Using Fractionated Magnetic Fields on ZrO2–PdD Nanostructured Components, J. Condensed Matter Nucl. Sci. 15, (2015), p 66 www.iscmns.org/CMNS/JCMNS-Vol15.pdf
Swartz M., Verner, G., et al. Imaging of an Active NANOR®-type LANR Component using CR-39, J. Condensed Matter Nucl. Sci. 15, (2015), p 81 www.iscmns.org/CMNS/JCMNS-Vol15.pdf
Swartz M. Incremental High Energy Emission from a ZrO2–PdD Nanostructured Quantum Electronic Component CF/LANR, J. Condensed Matter Nucl. Sci. 15, (2015), p 92 www.iscmns.org/CMNS/JCMNS-Vol15.pdf
Swartz M. Entrepreneurial Efforts: Cold Fusion Research at JET Energy Leads to Innovative, Dry Components, J. Condensed Matter Nucl. Sci. 15, (2015), p 102 www.iscmns.org/CMNS/JCMNS-Vol15.pdf
Swartz M. R. Impact of an Applied Magnetic Field on a High Impedance Dual Anode LANR Device, J. Condensed Matter Nucl. Sci. 4, (2011), p 93 www.iscmns.org/CMNS/JCMNS-Vol4.pdf
Swartz M. R. LANR Nanostructures and Metamaterials Driven at their Optimal Operating Point, J. Condensed Matter Nucl. Sci. 6, (2012), p 149 www.iscmns.org/CMNS/JCMNS-Vol6.pdf
Swartz M. R., Hagelstein P. I. Demonstration of Energy Gain from a Preloaded ZrO2–PdD Nanostructured CF/LANR Quantum Electronic Device at MIT, J. Condensed Matter Nucl. Sci. 13, (2014), p 516 www.iscmns.org/CMNS/JCMNS-Vol13.pdf
Swartz M. R., Verner G., et al. Energy Gain From Preloaded ZrO2–PdNi–D Nanostructured CF/LANR Quantum Electronic Components, J. Condensed Matter Nucl. Sci. 13, (2014), p 528 www.iscmns.org/CMNS/JCMNS-Vol13.pdf
Swartz M. R., Verner G., et al. Impact of Electrical Avalanche through a ZrO2–NiD Nanostructured CF/LANR Component on its Incremental Excess Power Gain, J. Condensed Matter Nucl. Sci. 19, (2016), p 287 www.iscmns.org/CMNS/JCMNS-Vol19.pdf
Swartz M. R. Optical Detection of Phonon Gain Distinguishes an Active Cold Fusion/LANR component (3), J. Condensed Matter Nucl. Sci. 20, (2016), p 29 www.iscmns.org/CMNS/JCMNS-Vol20.pdf
Swartz M. R. Oscillating Excess Power Gain and Magnetic Domains in NANOR®-type CF/LANR Components, J. Condensed Matter Nucl. Sci. 22, (2017), p 35 www.iscmns.org/CMNS/JCMNS-Vol22.pdf
Swartz M.R., Hagelstein P.L. Increased PdD anti-Stokes Peaks are Correlated with Excess Heat Mode, J. Condensed Matter Nucl. Sci. 24, (2017), p 130 www.iscmns.org/CMNS/JCMNS-Vol24.pdf
Swartz M.R. Quasiparticles, Collective Excitations and Higher-order Collective Quasi-excitations in Lattice Assisted Nuclear Reactions, J. Condensed Matter Nucl. Sci. 25, (2017), p 26 www.iscmns.org/CMNS/JCMNS-Vol25.pdf
Szpak S., Dea J. Evidence for the Induction of Nuclear Activity in Polarized Pd/H–H2O System, J. Condensed Matter Nucl. Sci. 9, (2012), p 21 www.iscmns.org/CMNS/JCMNS-Vol9.pdf
Szpak S., Gordon F. The Fleischmann–Pons Effect: Reactions and Processes, J. Condensed Matter Nucl. Sci. 12, (2013), p 143 www.iscmns.org/CMNS/JCMNS-Vol12.pdf
Szpak S., Gordon F. Forcing the Pd/1H–1H2O System into a Nuclear Active State, J. Condensed Matter Nucl. Sci. 13, (2014), p 543 www.iscmns.org/CMNS/JCMNS-Vol13.pdf
Szpak S., Gordon F. On the Mechanism of Tritium Production in Electrochemical Cells, J. Condensed Matter Nucl. Sci. 14, (2014), p 61 www.iscmns.org/CMNS/JCMNS-Vol14.pdf
Szpak S. The Pd + D Co-Deposition: Process, Product, Performance, J. Condensed Matter Nucl. Sci. 14, (2014), p 68 www.iscmns.org/CMNS/JCMNS-Vol14.pdf
Szpak S., Gordon F. Cathode to Electrolyte Transfer of Energy Generated in the Fleischmann–Pons Experiment, J. Condensed Matter Nucl. Sci. 14, (2014), p 76 www.iscmns.org/CMNS/JCMNS-Vol14.pdf
Szpak S. On the Path Leading To The Fleischmann–Pons Effect, J. Condensed Matter Nucl. Sci. 17, (2015), p 91 www.iscmns.org/CMNS/JCMNS-Vol17.pdf
Szumski D. Si Nickel Transmutation and Excess Heat Model using Reversible Thermodynamics, J. Condensed Matter Nucl. Sci. 13, (2014), p 554 www.iscmns.org/CMNS/JCMNS-Vol13.pdf
Taft S. L., Marwan J. The Open Gate Phenomenon: A New Energy Technology, J. Condensed Matter Nucl. Sci. 6, (2012), p 77 www.iscmns.org/CMNS/JCMNS-Vol6.pdf
Takahashi A., Kitamura A., et al. Anomalous Exothermic and Endothermic Data Observed by Nano-Ni-Composite Samples, J. Condensed Matter Nucl. Sci. 15, (2015), p 23 www.iscmns.org/CMNS/JCMNS-Vol15.pdf
Takahashi A. Deuteron Cluster Fusion and ASH, J. Condensed Matter Nucl. Sci. 1, (2007), p 62 www.iscmns.org/CMNS/JCMNS-Vol1.pdf
Takahashi A. TSC-Induced Nuclear Reactions and Cold Transmutations , J. Condensed Matter Nucl. Sci. 1, (2007), p 86 www.iscmns.org/CMNS/JCMNS-Vol1.pdf
Takahashi A., Yabuuchi N. On Condensation Force of TSC, J. Condensed Matter Nucl. Sci. 1, (2007), p 97 www.iscmns.org/CMNS/JCMNS-Vol1.pdf
Takahashi A. Fusion Rates of Bosonized Condensates, J. Condensed Matter Nucl. Sci. 1, (2007), p 106 www.iscmns.org/CMNS/JCMNS-Vol1.pdf
Takahashi A. A Theoretical Summary of Condensed Matter Nuclear Effects, J. Condensed Matter Nucl. Sci. 1, (2007), p 129 www.iscmns.org/CMNS/JCMNS-Vol1.pdf
Takahashi A. Dynamic Mechanism of TSC Condensation Motion, J. Condensed Matter Nucl. Sci. 2, (2009), p 33 www.iscmns.org/CMNS/JCMNS-Vol2.pdf
Takahashi A. Progress in Condensed Cluster Fusion Theory, J. Condensed Matter Nucl. Sci. 4, (2011), p 269 www.iscmns.org/CMNS/JCMNS-Vol4.pdf
Takahashi A., Seto R., et al. Role of PdO Surface-coating in CMNS D(H)-Gas Loading Experiments, J. Condensed Matter Nucl. Sci. 5, (2011), p 17 www.iscmns.org/CMNS/JCMNS-Vol5.pdf
Takahashi A. Are Ni + H Nuclear Reactions Possible?, J. Condensed Matter Nucl. Sci. 9, (2012), p 108 www.iscmns.org/CMNS/JCMNS-Vol9.pdf
Takahashi A. Physics of Cold Fusion by TSC Theory, J. Condensed Matter Nucl. Sci. 13, (2014), p 565 www.iscmns.org/CMNS/JCMNS-Vol13.pdf
Takahashi A. Nuclear Products of Cold Fusion by TSC Theory, J. Condensed Matter Nucl. Sci. 15, (2015), p 11 www.iscmns.org/CMNS/JCMNS-Vol15.pdf
Takahashi A. Fundamental of Rate Theory for CMNS, J. Condensed Matter Nucl. Sci. 19, (2016), p 298 www.iscmns.org/CMNS/JCMNS-Vol19.pdf
Takahashi N., Kosaka Si, et al. Detection of Pr in Cs Ion-implanted Pd/CaO Multilayer Complexes with and without D2 Gas Permeation, J. Condensed Matter Nucl. Sci. 13, (2014), p 579 www.iscmns.org/CMNS/JCMNS-Vol13.pdf
Tanabe K. Plasmonic Concepts for Condensed Matter Nuclear Fusion, J. Condensed Matter Nucl. Sci. 24, (2017), p 296 www.iscmns.org/CMNS/JCMNS-Vol24.pdf
Tanzella F., Bao J., et al. Stimulation of Metal DeuterideWires at Cryogenic Temperatures, J. Condensed Matter Nucl. Sci. 8, (2012), p 176 www.iscmns.org/CMNS/JCMNS-Vol8.pdf
Tanzella F., Bao J., et al. Seeking X-rays and Charge Emission from a Copper Foil Driven at MHz Frequencies, J. Condensed Matter Nucl. Sci. 19, (2016), p 110 www.iscmns.org/CMNS/JCMNS-Vol19.pdf
Tanzella F., Godes R., et al. Controlled Electron Capture: Enhanced Stimulation and Calorimetry Methods, J. Condensed Matter Nucl. Sci. 24, (2017), p 301 www.iscmns.org/CMNS/JCMNS-Vol24.pdf
Tanzella F.L., J. Bao J., et al. Cryogenic Calorimetry of 'Exploding' PdDx Wires, J. Condensed Matter Nucl. Sci. 6, (2012), p 90 www.iscmns.org/CMNS/JCMNS-Vol6.pdf
Tian J., Bingjun Shen B., et al. Excess Heat Triggered by Different Current in a D/Pd Gas-loading System, J. Condensed Matter Nucl. Sci. 13, (2014), p 586 www.iscmns.org/CMNS/JCMNS-Vol13.pdf
Toimela T. Theoretical Study of the Transmutation Reactions, J. Condensed Matter Nucl. Sci. 19, (2016), p 316 www.iscmns.org/CMNS/JCMNS-Vol19.pdf
Tsirlin M. Comment on the Article ‘Simulation of Crater Formation on LENR Cathodes Surfaces’, J. Condensed Matter Nucl. Sci. 14, (2014), p 1 www.iscmns.org/CMNS/JCMNS-Vol14.pdf
Tsirlin M. Concerning the Problem of Searching for the Optimal Palladium Cathode, J. Condensed Matter Nucl. Sci. 25, (2017), p 56 www.iscmns.org/CMNS/JCMNS-Vol25.pdf
Tsuchiya K. A Self-Consistent Iterative Calculation for the Two Species of Charged Bosons Related to the Nuclear Reactions in Solids, J. Condensed Matter Nucl. Sci. 13, (2014), p 594 www.iscmns.org/CMNS/JCMNS-Vol13.pdf
Tsvetkov S. A. Initiation of the Cold Fusion Reactions by Air Components, J. Condensed Matter Nucl. Sci. 8, (2012), p 23 www.iscmns.org/CMNS/JCMNS-Vol8.pdf
Tsyganov E.N., Bavizhev M.D., et al. Cold Nuclear Fusion in Metal Environment, J. Condensed Matter Nucl. Sci. 17, (2015), p 96 www.iscmns.org/CMNS/JCMNS-Vol17.pdf
Urutskoev L. I., Filippov D. V., et al. Detection of Abnormal Quantity of Hydrogen upon Electrical Explosion of Titanium Foil in a Liquid, J. Condensed Matter Nucl. Sci. 4, (2011), p 106 www.iscmns.org/CMNS/JCMNS-Vol4.pdf
Urutskoev L. I., Filippov D.V., et al. A Study on the Possibility of Initiating Tungsten Alpha Decay Using Electric Explosion, J. Condensed Matter Nucl. Sci. 23, (2017), p 1 www.iscmns.org/CMNS/JCMNS-Vol23.pdf
Valat M., Goldwater A., et al. Investigations of the Lugano HotCat Reactor, J. Condensed Matter Nucl. Sci. 21, (2016), p 81 www.iscmns.org/CMNS/JCMNS-Vol21.pdf
Valat V., Hunt R., et al. Celani’s Wire Excess Heat Effect Replication, J. Condensed Matter Nucl. Sci. 15, (2015), p 246 www.iscmns.org/CMNS/JCMNS-Vol15.pdf
Vasanthi N., Raj S.A., et al. Silica Favours Bacterial Growth Similar to Carbon, J. Condensed Matter Nucl. Sci. 17, (2015), p 111 www.iscmns.org/CMNS/JCMNS-Vol17.pdf
Veziroglu T. Nejat An Obituary note to John O’Mara Bockris (1923–2013), J. Condensed Matter Nucl. Sci. 16, (2015), p 1 www.iscmns.org/CMNS/JCMNS-Vol16.pdf
Violante V., Sarto F., et al. The Study of the Fleischmann and Pons Effect through the Materials Science Development, J. Condensed Matter Nucl. Sci. 8, (2012), p 60 www.iscmns.org/CMNS/JCMNS-Vol8.pdf
Violante V., Castagna E., et al. Excess of Power during Electrochemical Loading: Materials, Electrochemical Conditions and Techniques, J. Condensed Matter Nucl. Sci. 15, (2015), p 44 www.iscmns.org/CMNS/JCMNS-Vol15.pdf
Violante V., Castagna E., et al. Heat Production and RF Detection during Cathodic Polarization of Palladium in 0.1M LiOD, J. Condensed Matter Nucl. Sci. 19, (2016), p 319 www.iscmns.org/CMNS/JCMNS-Vol19.pdf
Vysotskii V. I., Kornilova A. A. Low-energy Nuclear Reactions and Transmutation of Stable and Radioactive Isotopes in Growing Biological Systems, J. Condensed Matter Nucl. Sci. 4, (2011), p 146 www.iscmns.org/CMNS/JCMNS-Vol4.pdf
Vysotskii V. I., Adamenko S. V. Low-energy Subbarrier Correlated Nuclear Fusion in Dynamical Systems, J. Condensed Matter Nucl. Sci. 8, (2012), p 91 www.iscmns.org/CMNS/JCMNS-Vol8.pdf
Vysotskii V. I., Kornilova A., et al. Features and Giant Acceleration of 'Warm' Nuclear Fusion at Interaction of Moving Molecular Ions (D-...-D)+ with the Surface of a Target, J. Condensed Matter Nucl. Sci. 13, (2014), p 603 www.iscmns.org/CMNS/JCMNS-Vol13.pdf
Vysotskii V. I., Kornilova A., et al. Stimulated (B11, p) LENR and Emission of Nuclear Particles in Hydroborates in the Region of Phase Transfer Point, J. Condensed Matter Nucl. Sci. 13, (2014), p 608 www.iscmns.org/CMNS/JCMNS-Vol13.pdf
Vysotskii V. I. On Problems of Widom–Larsen Theory Applicability to Analysis and Explanation of Rossi Experiments, J. Condensed Matter Nucl. Sci. 13, (2014), p 615 www.iscmns.org/CMNS/JCMNS-Vol13.pdf
Vysotskii V. I., Vysotskyy M. V., et al. Application of Correlated States of Interacting Particles in Non-stationary and Periodical Modulated LENR Systems, J. Condensed Matter Nucl. Sci. 13, (2014), p 624 www.iscmns.org/CMNS/JCMNS-Vol13.pdf
Wang X. F., Arata Y. The Importance of the Removal of Helium from Nano-Pd Particles after Solid Fusion, J. Condensed Matter Nucl. Sci. 13, (2014), p 13 www.iscmns.org/CMNS/JCMNS-Vol13.pdf
Wayte R. A Technique for Making Nuclear Fusion in Solids, J. Condensed Matter Nucl. Sci. 18, (2016), p 36 www.iscmns.org/CMNS/JCMNS-Vol18.pdf
Weaver C., Prelas M., et al. Progress in Development of Diamond-based Radiation Sensor for Use in LENR Experiments, J. Condensed Matter Nucl. Sci. 15, (2015), p 305 www.iscmns.org/CMNS/JCMNS-Vol15.pdf
Weaver C., Prelas M., et al. Investigation of Possible Neutron Production by D/Ti Systems under High Rates of Temperature Change, J. Condensed Matter Nucl. Sci. 15, (2015), p 314 www.iscmns.org/CMNS/JCMNS-Vol15.pdf
Zaromb S. The Latest Environmental Contributions of John O’Mara Bockris, J. Condensed Matter Nucl. Sci. 16, (2015), p 3 www.iscmns.org/CMNS/JCMNS-Vol16.pdf
Zelensky V.F. Fusion of Light Atomic Nuclei in Vacuum and in Solids and Two Ways of Mastering Nuclear Fusion Energy, J. Condensed Matter Nucl. Sci. 24, (2017), p 146 www.iscmns.org/CMNS/JCMNS-Vol24.pdf
Zelensky V.F., Gamov V.O., et al. Experimental Device of Cold HD-Fusion Energy Development and Testing (Verification Experiment), J. Condensed Matter Nucl. Sci. 24, (2017), p 168 www.iscmns.org/CMNS/JCMNS-Vol24.pdf
Zhang W. Thermal Analysis of Explosions in an Open Palladium/Deuterium Electrolytic System, J. Condensed Matter Nucl. Sci. 17, (2015), p 116 www.iscmns.org/CMNS/JCMNS-Vol17.pdf
Zhou D. Z., Wang C., et al. Energetic Particles Generated in Earlier Pd + D Nuclear Reactions, J. Condensed Matter Nucl. Sci. 15, (2015), p 33 www.iscmns.org/CMNS/JCMNS-Vol15.pdf
354 titles.