| A | B | C | D | E | |
|---|---|---|---|---|---|
1 | |||||
2 | Accepted Poster Presentations (Link to Poster Guidelines) | ||||
3 | 1 | Sergio Bartalucci | The predictive power of the Correlated- Coherent States model in LENR research: experimental results from p-Li reactions at low energy | ||
4 | 2 | Jean-Paul Biberian | Vacuum Capacitors for Energy Storage | ||
5 | 3 | Liudmila Boldyreva | Analogy Between the Properties of Spin Supercurrent and “Strange” Radiation Accompanying Low-Energy Nuclear Reactions | ||
6 | 4 | Nancy L Bowen | Applying Nuclear Engineering Considerations to the Nuclear Active Environment for LENR | ||
7 | 5 | Nancy L Bowen | The Electromagnetic Considerations of the Nuclear Force, Part III: An Analysis of the Electromagnetic Contributions to Nuclear Behavior | ||
8 | 6 | Steve Casselman | Cold Fusion via Atomic Compression | ||
9 | 7 | Arayik Danghyan | Electron-electron bound state considering magnetic dipole- dipole interaction | ||
10 | 8 | Fabrice David | Direct Conversion of LENR inside Solid-State Fusion Diodes | ||
11 | 9 | Louis DeChiaro | HIVER Electrochemistry Energy Produced Nuclear Tracks | ||
12 | 10 | Kjeld Engvild | Any Independent Replications of the Holmlid Effect? | ||
13 | 11 | G Andrew Erickson | Progress in Constructing, Testing and Detecting Radiation from Lattice Energy Converter (LEC) Cells | ||
14 | 12 | Lawrence Forsley | LENR Low Flux Neutron Spectroscopy | ||
15 | 13 | Luciano Ondir Freire | Possible Explanation of LENR: Charge Cluster Micro Reactors | ||
16 | 14 | Robert Greenyer | Using the online MFMP/Parkhomov LENR reaction calculator to review past data and drive future research | ||
17 | 15 | Joseph Guokas | LENR on Surfaces or in Plasmas | ||
18 | 16 | Peter Hagelstein | Matrix elements for HD/3He and D2/4He transitions | ||
19 | 17 | Peter Hagelstein | Off-resonant energy shifts of the lowest two states of Fe-57 | ||
20 | 18 | Bin-Juine Huang | Generation of Excess Energy from Two-phase Flow | ||
21 | 19 | Mikhail Ivanov | Single Physics of Condensed and None Condensed Matter I: Fundamental Laws and Constants | ||
22 | 20 | Sungho Jo | Anomalous Temperature Increase of Boron Carbide Block near An Electrochemical Cell: A New Experimental Approach to LENR | ||
23 | 21 | Mateusz Kaczmarski | Latest upgrade of University of Szczecin accelerator system for fusion reactions below 1keV | ||
24 | 22 | Mikhail Kashchenko | Synthesis of silicon in the interaction of aluminum with a quasi-neutron and estimation of the contribution of the aluminum hydride complex | ||
25 | 23 | Tomotaka Kobayashi | Estimation of the heat generation of the metal composite powder absorbing the pulsed flow of hydrogen gas | ||
26 | 24 | Andras Kovacs | Poster proposal: Unified Field Theory and Occam's Razor | ||
27 | 25 | Ankit Kumar | Correlating transmutations to excess ionizing radiation in light water electrolysis under steady and periodic high potentials | ||
28 | 26 | Emanuele Marano | Development and testing of a high-precision, 256 channels, data acquisition system based on open-source hardware and software for LENR experiments | ||
29 | 27 | Emanuele Marano | Design, construction and characterization of a Seebeck calorimeter for electrolysis electromigration experiments | ||
30 | 28 | Charles Martin | Confinement Induced Electron Capture | ||
31 | 29 | Melvin Miles | New Applications of the Lower Bound Method For Isoperibolic Calorimetry | ||
32 | 30 | Melvin Miles | The First Cold Fusion Experiments Reporting the Correlation Between Excess Heat and Helium-4 Production | ||
33 | 31 | David Nagel | Electromigration in LENR | ||
34 | 32 | Shinya Narita | Heat Evolution in Hydrogen/Deuterium Desorption with Pd Foil Coated with Metal Membrane | ||
35 | 33 | Anatoly Nikitin | Strange Traces of a "Strange" Radiation | ||
36 | 34 | Christos Papageorgiou | PAP-LENR Interpreting the process of generating low-energy nuclear reactions | ||
37 | 35 | Chandraman Patil | Transparent Isoperibolic Calorimeter for LENR Research | ||
38 | 36 | Benjamin Peecher | Studies of LENR Triggering Mechanisms Using Pressurized Nanoparticles | ||
39 | 37 | Prahlada Ramarao | Validation of Excess Energy in the H2 Loaded Palladium System | ||
40 | 38 | Roger Stringham | Cavitation and Frequency | ||
41 | 39 | Mitchell Swartz | Impedance Spectroscopy Can Distinguish Active ZrO2PdNiD NANOR®-type Components | ||
42 | 40 | Mitchell Swartz | Deuteron Momentum and the Umweg Factor Limit Successful CF/LANR | ||
43 | 41 | Daniel Szumski | Calibration of an Electrode Energy Partition Model Using George Miley’s Published Data | ||
44 | 42 | Fran Tanzella | Prompt Gamma Radiation Measurements in Brillouin’s Reactor | ||
45 | 43 | Gennadiy Tarassenko | Formation of primary helium in the Earth | ||
46 | 44 | Sergei Tcvetkov | Evaluation of the possibility for using the Heliun leak detector TI1-14 for the analysis of protium H2, Deuterium D2, Helium3 3He, and Tritium T2. | ||
47 | 45 | Vladimir Vysotskii | Undamped thermal waves and peculiarities of pulsed LENR and thermally stimulated biochemical reactions in the interaction of viruses with cells | ||
48 | 46 | Vladimir Vysotskii | LENR solution for fundamental mysteries of the solar corona (anomalously high temperature and anomalous He3 concentration) | ||
49 | 47 | Harper Whitehouse | LEC Conduction Analysis Including Diffusion of Ions | ||
50 | 48 | Wu-Shou Zhang | Reproduction of excess heat using a Pd-B cathode measured by Seebeck calorimeter | ||
51 | 49 | Erik Ziehm | Anomalous Phenomena on the Surface of CR-39 in Proximity to a DC Plasma | ||
52 | 50 | Diadon Acs | Block Chain and LENR | ||
53 | |||||