Subpage of Proceedings
The Proceedings of ICCF-4 were published in two ways, by EPRI as a book in four volumes, and by the journal Fusion Technology, for a subset of papers that went through the journal review process. The Proceedings have been available from EPRI, but recently vanished. I recovered a copy from the Internet Archive. See the subpage, Source. There is also a text-under image (searchable) copy on lenr-canr.org, which I have used, except for four papers by Mitchell Swartz, which had been removed from that copy. They have been replaced here by pure image PDF extracted from the EPRI document.
See the subpage Notes for details about variations in copies.
(If Dr. Swartz wishes to make a better copy available to us, we will use it. I did run OCR on the copy, to create text-under PDF, but it made huge files that did not compress adequately.)
The Proceedings have printed page numbers that are, for each paper, the number of the paper in sequence, followed by a hyphen, and then the number of the page within the paper. Here, we only show the number of the paper. All papers start on page 1 of the section. Did we need to be told that?
lenr-canr.org copies:
Volume 1. Plenary Session Papers
Volume 2. Calorimetry and Materials Papers
Volume 3. Nuclear Measurements Papers
Volume 4. Theory and Special Topics Papers
EPRI originals (compressed, see Source for links to uncompressed files):
TR-104188-V1.pdf
TR-104188-V2.pdf
TR-104188-V3.pdf
TR-104188-V4.pdf
Proceedings: Fourth International Conference on Cold Fusion
December 6-9, 1993
Lahaina, Maui, Hawaii
Published July 1994
Volume 1 front matter and table of contents, jump to section here
Volume 2 front matter includes v2 table of contents, jump to section here
Volume 3 front matter includes v3 table of contents, jump to section here
Volume 4 front matter includes v4 table of contents, jump to section here
—
Volume 1: Plenary Session Papers
Table of Contents (all volumes)
Foreword Thomas O. Passell, Editor |
link |
Calorimetry of the Pd-D20 System: The Search for Simplicity and Accuracy M. Fleischmann, S. Pons, M. Le Roux, and J. Roulette |
1 |
Excess Heat and Nuclear Product Measurements in Cold Fusion Electrochemical Cells M. D. Gozzi, R. Caputo, P. Luigi Cignini, M. Tomellini, G. Gigli, G. Balducci, E. Cisbani, S. Frullani, F. Garibaldi Jodice, G. Maria Urciuoli |
2 |
Observation of Excess Heat During Electrolysis of 1M LiOD in a Fuel Cell Type Closed Cell N. Hasegawa, N. Hayakawa, Y. Tsuchida, Y. Yamamoto, and K. Kunimatsu |
3 |
Behavior of a Pd Membrane During Deuterium Electrochemical Loading: Excess Heat Production L. Bertalot, F. De Marco, A. De Ninno, R. Felici, A. La Barbera, and F. Scaramuzzi |
4 |
Loading Calorimetric, and Nuclear Investigation of the D/ Pd System McKubre, B. Bush, S. Crouch-Baker, A. Hauser, N. Jevtic, S. Smedley M. Srinivasan, F. Tanzella, M. Williams, S. Wing and T. Passell |
5 |
Helium-4 Quantitative Measurements in the Gas Phase of Cold Fusion Electrochemical Cells Gozzi, R. Caputo, P.L. Cignini, M. Tomellini, G. Gigli, G. Balducci Cisbani, S. Frullani, F. Garibaldi, M. Jodice, G.M. Urciuoli |
6 |
Tritium Evolution from Various Morphologies of Palladium D, Tuggle, T. Claytor, and S. Taylor |
7 |
Tritium Generation in Palladium Cathodes with High Deuterium Loading D. Will, K, Cedzynska, and D, Linton |
8 |
Cold Fusion by Sparking in Hydrogen Isotopes. Energy Balances and Search for Fusion By-Products. A Strategy to Prove the Reality of Cold Fusion J. Dufour, J, Foos, J. Millot |
9 |
Neutron Transfer Reactions P. Hagelstein and S. Kaushik |
10 |
Lattice-Induced Atomic and Nuclear Reactions P. Hagelstein |
11 |
Cold Fusion”93”: Some Theoretical Ideas G. Preparata |
12 |
Deuteron-Induced Fusion in Various Environments G. Hale and T. Talley |
13 |
Nuclear Fusion in Condensed Materials S. Ichimaru |
14 |
Opposition and Support for Cold Fusion M. Rabinowitz, Y. Kim, V. Chechin, and V. Tsarev |
15 |
Comments on the Criticisms of M. Rabinowitz G. Preparata |
16 |
Response to G. Preparata M. Rabinowitz |
17 |
The Physical and Metallurgical Aspects of Hydrogen in Metals R. Oriani |
18 |
Alfred Coehn and After: The Alpha, Beta, Gamma of the Palladium-Hydrogen System C. Bartolomeo, M. Fleischmann, G. Larramona, S. Pons, J. Roulette H. Sugiura and G. Preparata |
19 |
The Measurements and the Control of the Loading Ratio of Deuterium in Palladium G. Huang, D. MO, W. Yu, M. Yao, X. Li and B. Liaw |
20 |
Electrolytic Hydrogen/ Deuterium Absorption into Pd, Pd-Rh, and Pd-Ag Alloys in Fuel Cell Type Closed Cell H. Akita, Y. Tsuchida, T. Nakata, A. Kubota, M. Kobayashi, Y. Yamamoto N. Hasegawa, N. Hayakawa, and K. Kunimatsu |
21 |
High Power Microsecond Pulsed Electrolysis for Large Deuterium Loading on Pd Plates F. Cellani, A. Spallone, P. Tripodi, A. Nuvoli, A. Petrocchi, D. Di Gioacchino, M. Boutet, P. Marini, and V. Di Stefano |
22 |
Volume 2: Calorimetry and Materials Papers
Front matter (Includes duplicate foreword and table of contents for Vol. 2)
Triggering of Heat and Sub-Surface Changes in Pd-D Systems J. O’M. Bockris, R. Sundaresan, D. Letts, and Z. Minevski |
1 |
Search for Nuclear Products of Cold Fusion H. Miyamaru, Y. Chimi, T. Inokuchi, and A. Takahashi |
2 |
Excess Heat Generation Voltage Deviation, and Neutron Emission in D20-LiOD Systems M. Okamoto, Y. Yoshinaga, M. Aida, and T. Kusunoki |
3 |
Some Characteristics of Heat Production Using the “Cold Fusion” Effect E. Storms |
4 |
Heat Measurement of Water Electrolysis Using Pd Cathode and the Electrochemistry K. Ota, H. Yoshitake, O. Yamazaki, M. Kuratsuka, K. Yamaki, K. Ando, Y. Iida, and N. Kamiya |
5 |
Heat and Helium Measurements in Deuterated Palladium M. Miles and B. Bush |
6 |
Subtraction of a New Thermo-Electromechanical Effect from the Excess Heat, and the Emerging Avenues to Cold Fusion P. Handel |
7 |
Heat After Death S. Pons and M. Fleischmann |
8 |
Comments About Nuclear Reaction Products G. Miley |
9 |
Back to the Future: The Fleischmann-Pons Effect in 1994 M. Melich and W. Hansen |
10 |
Pd/D Calorimetry – The Key to the F / P Effect and a Challenge to Science W. Hansen and M. Melich |
11 |
Excess Heat: The Macro Principles J. Waisman and N. Kertamus |
12 |
Calorimetric Studies for Several Light Water Electrolytic Cells With Nickel Fibrex Cathodes and Electrolytes with Alkali Salts of Potassium, Rubidium, and Cesium R. Bush and R. Eagleton |
13 |
Anomalous Heat Evolution from SrCe03-Type Proton Conductors During Absorption/ Desorption of Deuterium in Alternating Electric Field T. Mizuno, M. Enyo, T. Akimoto, and K. Azumi |
14 |
Further Studies on Excess Heat Generation in Ni-H20 Electrolytic Cells H. Ramamurthy, M. Srinivasan, V. Mukherjee, and P. Adibabu |
15 |
A Method to Improve Algorithms Used to Detect Steady State Excess Enthalpy M. Swartz |
16 |
The Excess Heat Experiments on Cold Fusion in a Titanium Lattice Q. Zhang, Q. Gou, Z. Zhu, J. Lou, F. Liu, J. S., B. Miao, A. Ye, and S. Cheng |
17 |
Factors Affecting the Success Rate of Heat Generation in CF Cells D. Cravens |
18 |
Some Lessons from Optical Examination of the PFC Phase-II Calorimetric Curves M. Swartz |
19 |
Apparatus for Safely Extending Cold Fusion Investigations to High Temperature, Pressure, and Input Power Regimes H. Ransford Ill, and S. Pike |
20 |
Linear, High-Precision, Redundant Calorimeter S. Barrowes, and H. Bergeson |
21 |
A Home Cold Fusion Experiment M. Hugo |
22 |
Study of Concentrations of Helium and Tritium in Electrolytic Cells with Excess Heat Generations T. Aoki, Y. Kurata, H. Ebihara, N. Yoshikawa |
23 |
Excess Heat Observation During Electrolysis of CsCO3 Solution in Light Water Y. Bazhutov, Y. Chertov, A. Krivoshein, Y. Skuratnik, and N. Khokhlov |
24 |
Surface Morphology and Microcomposition of Palladium Cathodes After Electrolysis in Acidified Light and Heavy Water: Correlation with Excess Heat J. Dash, G. Noble, and D Diman |
25 |
Materials Aspects of the Electrochemical Insertion of Hydrogen and Deuterium into Mixed Conductors R. Huggins |
26 |
Measurements of Hydrogen Loading Ratio of Pd Anodes Polarized in LiH-LiCl-KCl Molten Salt Svstems H. Okamoto and S. Nezu |
27 |
Movement of Li During Electrolysis of 0.1M-LiOD /D20 Solution S. Miyamoto, K. Sueki, K. Kobayashi, M. Fujii, M. Chiba, H. Nakahara, T. Shirakawa, T. Kobayashi, M. Yanokura, and M. Aratani |
28 |
Deuterium Charging in Palladium by the Electrolysis of Heavy Water: Measurement of the Lattice Parameter L. Bertalot, F. DeMarco, A. DeNinno, R. Felici, A. LaBarbera, F. Scaramuzzi, and V. Violante |
29 |
Charging Hydrogen into Ni in Hydride-Containing Molten Salts B. Liaw and Y. Ding |
30 |
Measurements of Hydrogen Loading Ratio of Pd Electrodes Cathodically Polarized in Aqueous Solutions S. Nezu and T. Sano |
31 |
Evidence of Agglomerization and Syneresis in Regular and Excess Heat Cells in Water E. Criddle |
32 |
Isotopic Fuel Loading Coupled to Reactions at an Electrode M. Swartz |
33 |
About EPRI and Export Control Restrictions | 34 |
Volume 3: Nuclear Measurements Papers
Front matter (Includes duplicate foreword and table of contents for Vol. 3)
Alkali-Hydrogen Cold Fusion Accompanied with Tritium Production on Nickel R. Notoya |
1 |
Evidence for Electrolytically Induced Transmutation and Radioactivity Correlated with Excess Heat in Electrolytic Cells With Light Water Rubidium Salt Electrolytes R. Bush and R. Eagleton |
2 |
Investigation of Low Level Tritium Generation in Ni-H20 Electrolytic Cells T. Sankaranarayanan, M. Srinivasan, M. Bajpai, and D. Gupta |
3 |
Deuterium Absorbability and Anomalous Nuclear Effect of YBCO High Temperature Superconductor S. Jin, F. Zhan, and Y. Liu |
4 |
The Influence of Conductivity on Neutron Generation Process in Proton Conducting Solid Electrolytes A. Samgin, A. Baraboshkin, I. Murigin, S. Tsvetkov, V. Andreev, and S. Vakarin |
5 |
Particle Acceleration and Neutron Emission in a Fracture Process of a Piezoelectric Material T. Shirakawa, M. Fujii, M. Chiba, K. Sueki, T. Ikebe, S. Yamaoka, H. Miura, T. Watanabe, T. Hirose, H. Nakahara, and M. Utsumi |
6 |
The Analysis of the Neutron Emission from the Glow Discharge in Deuterium Gas Tube Q. Ma, Y. Chen, G. Huang, W. Yur D. MO, and X Li |
7 |
Experimental Testing of the Erzion Model by Reacting of Electron Flux on the Target D. Baranov, Y. Bazhutov, N. Khokhlov, V. Koretsky, A. Kuznetsov, Y. Skuratnikr N. Sukovatkin |
8 |
A Study on Anomalous Nuclear Fusion Reaction by Using a HV Pulse Discharge J. He, Y. Zhang, G. Ren, G. Zhu, X. Dong, D. Chen, H. Han, L. Wang, S. Jin |
9 |
Cold Fusion Experiments by Using an Electrical Discharge in Water T. Matsumoto |
10 |
The Cubic-Tetragonal Phase Transition in TiDx (x> or =1.7) and its Possible Relation to Cold Fusion Reactions J. Fernandez, F. Cuevas, M. Alguero, and C. Sanchez |
11 |
Observation of Anomalous Nuclear Effects in Do-Pd Svstem Y. Iwamura, T. Itoh, and I. Toyoda |
12 |
Deuteron Fusion Experiment with Ti and Pd Foils Implanted with Deuteron Beams II T. Iida, M. Fukuhara, Sunarno, H. Miyamaru, and A. Takahashi |
13 |
Behavior of Key Elements in Pd for the Solid State Nuclear Phenomena Occurred in Heavy Water Electrolysis M. Okamoto, H. Ogawa, Y. Yoshinaga, T. Kusunoki, and O. Odawara |
14 |
Reproducibility of Tritium Generation From Nuclear Reactions in Condensed Media V. Romodanov, V. Savin, V. Elksnin, and Y. Skuratnik |
15 |
Cathode Material Change after Deuterium Glow Discharge Experiments I. Savvatimova, Y. Kucherov, and A. Karabut |
16 |
Search for Neutrons from Deuterided Palladium Subject to High Electrical Currents S. Taylor, T. Claytor, D. Tuggle, and S. Jones |
17 |
Characteristic Peak Structures on Charged Particle Spectra During Electrolysis Experiment R. Taniguchi |
18 |
Observations of Cold Fusion Neutrons from Condensed Matter S. Sakamoto |
19 |
Investigation of the Erzion-Nuclear Transmutation by Ion Beams D. Baranov, Y. Bazhutov, V. Koretsky, Y. Plets, G. Pohil, and E. Sakharov |
20 |
The Initiation of Reproducible Nuclear Reactions in the Structures of the Oxide Tungsten Bronze K. Kaliev, N. Sverdlov, Y. Istomin, E. Golikov, V. Butrimov, D. Babaeva, G. Vasnin, and V. Fyoderov |
21 |
Concept of Target Material Choice for Nuclear Reactions in Condensed Media V. Romodanov, V. Savin, S. Korneev, and Y. Skuratnik |
22 |
A New Device for Measuring Neutron Bursts in Cold Fusion Experiments X. Wang, P. Tang, W. Zhang, H. Liu, F. Lu, G. Chen, J. Liu, Z. Chen, and R. Zhu |
23 |
New Experimental Results of Anomalous Nuclear Effects in Deuterium/Metal Systems H. Long, W. Yin, X. Zhang, J. Wu, W. Zhang, H. Tang, Z. Li, Q. Shen, Z. Zhou, B. Qi, Y. Liu, X. Wang, and Y. Yang |
24 |
On the Subsistence of Anomalous Nuclear Effects After Interrupting the Electrolysis in F-P Type Experiments with Deuterated Ti Cathodes M. Alguero, F. Fernandez, F. Cuevas, and C. Sanchez |
25 |
Search for Neutron, Gamma, and X-Ray Emissions from Pd/LiOD Electrolytic Cells: A Null Result S. Jones, D. Jones, D. Shelton, and S. Taylor |
26 |
Volume 4: Theory and Special Topics Papers
The PDF for the Morrison paper is damaged, the left edge on some pages is missing, page 9, for example. It is present in the pure image copy from EPRI. (This is a large file, found here.) I intend to repair this as time and tools permit.
Front matter (Includes duplicate foreword and table of contents for Vol. 4)
Cold Fusion Theory – A Brief History of Mine J. Schwinger |
1 |
The 3-Dimensional Resonance Tunneling in Chemically Assisted Nuclear Fission and Fusion Reactions X. Li |
2 |
Reaction Barrier Transparency for Cold Fusion with Deuterium and Hydrogen Y. Kim, A. Zubarev, and M. Rabinowitz |
3 |
Comments on Exotic Chemistry Models and Deep Dirac States for Cold Fusion R. Rice, Y. Kim, Rabinowitz, and Zubarev |
4 |
Trapped Neutron Catalyzed Fusion of Deuterons and Protons in Inhomogeneous Solids H. Kozima |
5 |
On Possibility of Non-Barrier DD-Fusion in Volume of Boiling D2O During Electrolysis V. Vysotskii and R. Kuz’min |
6 |
New Hydrogen (Deuterium) Bohr Orbits in Quantum Chemistry and Cold Fusion Processes J. Vigier |
7 |
A Model of Cold Nuclear Transmutation by the Erzion Catalysis (The Erzion Model of “Cold Fusion”) Y. Bazhutov and G. Vereshkov |
8 |
Jahn-Teller Symmetry Breaking and Hydrogen Energy in Gamma-PdD Cold Fusion as Storage of the Latent Heat of Water K. Johnson, |
9 |
The Role of Hydrogen Ion Band States in Cold Fusion S. Chubb and T. Chubb |
10 |
Cold Fusion as Boson Condensation in a Fermi Sea J. Waber and M. de Llano |
11 |
Some Considerations of Multibody Fusion in Metal Deuterides A. Takahashi |
12 |
Cold Fusion and New Physics J. Yang, X. Chen, and L. Tang |
13 |
Sonoluminescense, Cold Fusion, and Blue Water Lasers T. Prevenslik |
14 |
A Unifying Model for Cold Fusion R. Bush |
15 |
Deuteron Waves and Cold Fusion N. Yabuuchi |
16 |
I. Deuteron Interaction in Unitary Quantum Theory L. Sapogin |
17 |
II. On the Mechanism of Cold Nuclear Fusion L. Sapogin |
18 |
Mechanism of Cold Fusion II K. Tsuchiya, K. Ohashi, and M. Fukuchi |
19 |
Conditions and Mechanism of Nonbarrier Double-Particle Fusion in Potential Pit in Crystal V. Vysotskii |
20 |
Coherent Nuclear Reactions in Crystalline Solids S. Vaidya |
21 |
Catastrophic Active Medium (CAM) Theory of Cold Fusion M. Swartz |
22 |
On Bose-Einstein Condensation of Deuterons in PdD S. Vaidya |
23 |
Account of Cold Fusion by Screening and Harmonic Oscillator Resonance M. Rambaut |
24 |
Possible Exhibition of the Erzion – Nuclear Transformation in Astrophysics Y. Bazhutov |
25 |
Isotopic and Chemical Composition Changes in Cold Fusion Experiments in the Erzion Model Y. Bazhutov and A. Kuznetsov |
26 |
Burning Away of Radioactive and Production of Some Stable Isotopes Within the Framework of the Erzion Model Y. Bazhutov, V. Koretsky, and A. Kuznetsov |
27 |
Synergetic Activation Model: Key to Intense and Reproducible Cold Fusion V. Filimonov |
28 |
Cold Fusion Explained by Negentropy Theory of Microdrop of Heavy Water R. Takahashi |
29 |
Ferroelectrics for Cold Fusion G. Federovich |
30 |
Possible Evidence of Cold D(d,p)T Fusion From Dee’s 1934 Experiment Y. Kim |
31 |
Searching for Truth with High Expectations – 5 Year Studies on Cold Fusion in China X. Li |
32 |
Cold Nuclear Fusion & Enhanced Energy Devices: A Progress Report H. Fox |
33 |
Review of Progress in Cold Fusion D. Morrison |
34 |
Cold Fusion: The High Frontier Implications for Space Technology E. Mallove |
35 |
New Pulse Gas Loading Cold Fusion Technology K. Chukanov |
36 |
Cheap Electric Power from Fusion? R. Cornog |
37 |
Proposed Nuclear Physics Experiment to Conclusively Demonstrate & Explain Aneutronic Cold Fusion R. Bass |
38 |
Cold Fusion and Nuclear Proliferation J. Guokas |
39 |
Ecological Aspects of Thermal Systems Using Hydrogen Isotopes V. Romodanov, V. Savin, S. Korneev, A. Glagolev, and Y. Skuratnik |
40 |
Investigation of Deuterium Glow Discharges of the Kucherov Type E. Kennel |
41 |
Oklo Isotope Anomalies and Cold Fusion W. Collis, |
42 |
A Brief Introduction to the Hydrosonic Pump and the Associated “Excess Energy” Phenomenon J. Griggs |
43 |
An Approach to the Probable Mechanism of the Non-Radioactive Biological Cold Fusion or So-Called Kervran Effect (Part 2) H. Komaki |
44 |