CFRL
English News No. 35 (2002. 5. 10)
Cold Fusion Research Laboratory (Japan) Dr. Hideo Kozima, Director
E-mail address; cf-lab.kozima@pdx.edu
Websites; http://web.pdx.edu/~pdx00210/
CFRL News (in English) No. 35 の速報版をお送りします。
第35号速報版では、次の記事を掲載しました。
1) ICCF9で発表予定の論文
2) “Solid State-Nuclear Physics”の授業評価
3) International Journal of Low Energy Nuclear Reactionsが発足します
4) Navy
Laboratory Technical Report No.1862
S. Szpak and P.A. Mosier-Boss, ed., “Thermal and Nuclear Aspects of the Pd/D2O System,”
5) 9th Russian Conference on Cold Nuclear Transmutation of Chemical Elements (September/October, 2001)
4) Navy Laboratoryの技術報告書にF. Gordonが書いている序文は、常温核融合研究の科学的な態度の見本ともいえるもので、多くの科学者が偏見に囚われずにこのような態度で研究に携わることが望まれます。
5) ロシア会議の報告は時期遅れの感じもしますが、送るように頼んでいたプログラムがやっと到着したので、ホームページに掲載します。
1. ICCF9でポートランド州立大学(PSU)から発表される予定の論文
五月19日から1週間、北京で開かれるICCF9に、PSUから次の5編の論文が発表されます。
1) J. Dash, I.
Savvatimova, S. Frantz, and F. Weis, “Effects of Glow Discharge with
Hydrogen Isotope Plasmas on Radioactivity of Uranium”
Uranium foils were attached to the cathode of a
glow discharge apparatus. A plasma of either hydrogen or deuterium ions was
used to bombard the uranium. Alpha, beta, and gamma radiation were
significantly greater for the bombarded uranium than for the original material.
2) J. Warner, J.
Dash and S. Frantz, “Electrolysis D2O with Titanium Cathodes:
Enhancement of Excess Heat and Further Evidence of Possible Transmutation”
Two calorimeter systems, an eight-cell, small cathode system, and a single cell Seebeck Envelope Calorimeter (SEC) system with a much larger cathode, are used in this research. These systems measure the thermal power output of electrolytic cells containing Pt anodes and Ti cathodes in D2O-H2SO4 electrolyte. The Ti cathodes in the eight-cell experiments typically have surface area of about 23 mm2, perimeter of about 10 mm, and current density of about 2 A/cm2. For those cells that showed excess power, the average excess power generation was 232 +/– 20 mW, which represents an increase of about 13% over the power input (or 113% power out/power in). Excess power output increased with increased current density. The highest power output observed was 125% of the power input. An effort was made to increase excess power by increasing the size of the cathode to about 400 mm2 in the SEC experiments. The magnitude of the excess power did not increase as the cathode size was increased. Smaller cathodes have larger perimeter/area ratios than the larger cathodes do. In an attempt to understand this lack of increased output with increased area, we then investigated the relationship between the perimeter/area ratio of the cathode and excess heat output over a series of 28 SEC experiments.
3) H. Kozima, “Excited State of Neutrons in a Nucleus and Cold Fusion Phenomenon in Transition-Metal Hydrides and Deuterides”
The interaction between a neutron in a nucleus at a lattice point (in a lattice nucleus) and another neutron in a different lattice nucleus mediated by a proton (or deuteron) at an interstitial site is formulated. The interaction between neutrons through the interstitial protons (or deuterons) could be called the super-nuclear interaction for its long-range nature even if the strength may be extremely small compared with neutron-neutron interaction by the nuclear force in a nucleus. If the neutrons are in an excited state of the nucleus with a wave function with larger orbits than that of the ground state, the interaction becomes considerable to make the excited states form a rather wide band (neutron valence band) similar to valence bands of electrons in semiconductors. Possible influences of the super-nuclear interaction on the nuclear reactions in solids are discussed.
4) H. Kozima, J. Warner, C. Salas Cano and J. Dash, “Consistent Explanation of Topography Change and Nuclear Transmutation in Surface Layers of Cathodes in Electrolytic Cold Fusion Experiments”
Nuclear transmutations (NT's) and exotic surface topography observed in the surface layers of cathodes in electrolytic experiments by J. Dash et al. over the last ten years have been analyzed using the TNCF model. Surface topographies of the cathodes showed characteristic fine structures where the results of nuclear transmutation (NT) were detected. Nuclear transmutations, characterized by their locality, are accompanied by excess heat generation, which suggests a nuclear origin. The products of nuclear transmutation are explained either by decay of excited cathode element nuclei to form an element of higher mass number than the original (nuclear transmutation by decay, or NT_{D}) or by fission of these nuclei (nuclear transmutation by fission, or NT_{F}).
The model was successfully used to analyze two cases of quantitative changes of isotope ratios in Ti and Pd cathodes and the surface topography change. The result shows that semi-quantitative explanation of the experimental data sets as a whole is possible with reasonable values of the adjustable parameter in the model:[4 – 6]
nn = 1.27 X 10^{13} cm^{-3} (Ti),
nn = 4 X 10^{13} cm^{-3} (Pd),
For the characteristic surface topography with pits and craters of diameters about 1 micron, a possible semi-quantitative explanation is given by explosions of tiny regions (hot spots) heated locally by nuclear reactions in the region with the parameter given above.
5) H. Kozima, “An Explanation of Data Sets obtained by McKubre et al. (Excess Heat), Clarke (Null Results of 4He and 3He) and Clarke et al. (Tritium) with “Arata Cell”
Interesting experimental data sets obtained by several research groups using the Arata-style cathodes are investigated by the TNCF model giving a consistent and semi-quantitative explanation for the excess heat and 4He generation outside the cathode and tritium detection in the cathode
2 “Solid State-Nuclear Physics”の授業評価
冬学期に講義した“Solid
State-Nuclear Physics"の授業評価を事務で整理して、その結果を通知してきました。まとめの部分をそのまま掲載します。一人の学部4年生を含む3人の学生が単位を取り,最後の時間にこの授業評価を書いて、事務室に提出してもらったものです。語学の問題は一つの障害として仕方のないことでしょう。他の点は満足してもらえたようです。このまとめの他に、Student Evaluation of Teachingのマークシートのコピーが3人分付いています。
Physics Evaluation
Title: PH 410/510
Instructor: Kozima
CRN: 44519
Term: 200201
Best Features
0 It's pioneering nature!
0The best feature of this course is that we have the opportunity to
study cold fusion from one of the leading researchers in the field.
0 It was an interesting subject 1 knew little
about.
Shortcomings
0 It's pioneering nature!
0 No
shortcomings.
0 Language barrier
Further Comments
* Very good class. Excellent
examples and well designed homework assignments. Instructor wrote the text book‑well
written. This was my favorite class this quarter because 1 had the
opportunity to study the cold fusion phenomenon, which is still a very
debatable subject in Modern Physics. It is exciting to learn how a new science,
as it is being developed. This was an excellent course and unique in the
physics curriculum.
0 I enjoyed this class very much.
3. 常温核融合研究の電子版雑誌International Journal of Low Energy Nuclear Reactions が発足します.
新しい電子版國際誌がJean Paul
Biberianの編集で発刊されます。下記Websiteに概要が掲載されています。
http://fusion-froide.homeip.net/
常温核融合の研究成果を発表する場が狭まっている状況では、この雑誌の発行は歓迎すべきことです。しかし、いくつかの問題を指摘する必要があるでしょう。
第一に、雑誌の編集方針が明示されていないので、論文の選択に関して多少の混乱の起こる恐れがあります。
第二に、誌名のLow Energy Nuclear Reaction (LENR)「低エネルギー核反応」は、この雑誌が常温核融合の専門誌(と思うのですが)であることを示すには曖昧です。核物理学でも、10MeVくらいまでのエネルギー領域における核反応を指すのにこの言葉を使うことがあります。1939年くらいまでに行われた核反応実験は、戦後の加速器の発達による高いエネルギーでの、多粒子放射過程を伴う核反応と区別されるからです。さらに高いエネルギー領域では、反核子の発生が起こりますから、核反応を、エネルギーで分類するとすると、低エネルギー、中間エネルギー、高エネルギーに分類できるでしょう。もっとも、低エネルギー領域の核反応は、核物理学としては興味の薄いものになっているのでしょう。常温核融合は、小生がnuclear reactions and accompanying
events occurring in solids with high densities of hydrogen isotopes in ambient
radiationと説明しているように、自由空間での核反応とは全く別の現象ですから、その特性を表す言葉を使うほうが良いことは明らかでしょう。
第三に、レフェリー制の問題です。Websiteでは“the papers published are peer reviewed by at least two referees”と説明されていますが、編集方針がはっきりしない状態では、論文審査が何を基準に行われるのか、曖昧さがのこります。前号で僕が提案した国際組織に、その一部として無審査制の論文発表方式の管理を考えたのは、このような問題を避けるため、あるいは超越するためでした。現状では無理なのかもしれません。
とにかく、常温核融合研究にとって、国際的な交流手段が国際会議以外にできることは、大いに歓迎すべきことです。開かれた組織として、従来の閉鎖的な学問体系を改革するきっかけになることを期待したいと思います。
4. Technical
Report
No.1862 (Navy Laboratory, USA), S. Szpak and P.A.
Mosier-Boss, ed., “Thermal and Nuclear Aspects of the Pd/D2O System,”
三つのNavy Laboratories SSC San Diego、[NAWC China Lake](と略称)およびNRL(GordonのForeword参照)で、この12年間に行われた常温核融合研究の成果がVol. 1の総合報告にまとめて報告されています。Technical Report No.1862の内容については、別の機会に紹介あるいは解析したいと思います。
ここでは、報告書のVol. 1: Contentsと発表論文リストおよびVol. 2: Foreword とContents のみを収録します。なお、論文は次のウエッブサイトで見られます。
http://www.spawar.navy.mil/sti/publications/pubs/tr/1862/
http://bitops.com/~mathias/tr1862/
http://bitops.com/~mathias/tr1862/html/
に掲載しました。
Volume 1: A Decade of Research at Navy Laboratories
TABLE OF CONTENTS
1. THE EMERGENCE OF COLD FUSION 1
S.
Szpak and P. A. Mosier‑Boss
2. EVENTS IN A POLARIZED Pd +D
ELECTRODES PREPARED BY CO‑DEPOSITION TECHNIQUE 7
S.
Szpak and P. A. Mosier‑Boss
3. EXCESS HEAT AND HELIUM PRODUCTION IN
PALLADIUM AND PALLADIUM ALLOYS 19
Melvin
H. Miles
4. ANALYSIS OF EXPERIMENT MC‑21: A CASE STUDY
Part
1: Development of Diagnostic Criteria 31
Part
II: Application of Diagnostic Criteria 51
S. Szpak, P‑ A. Mosier‑Buss, M. H. Miles, M. A.
Imam and M. Fleischmann
5. AN OVERVIEW OF COLD FUSION THEORY ...... 91
Scott
Chubb
APPENDIX: LISTING OF PUBLICATIONS/PRESENTATIONS RELATED
TO COLD FUSION BY NAVY LABORATORIES
STAFF 113
APPENDIX: LISTING OF
PUBLICATIONS/PRESENTATIONS RE
LATED TO COLD FUSION
This
listing is limited to the contributions from the U.S. Navy Laboratories. It
contains publications, theoretical and experimental, covering topics directed
toward better understanding of the Fleischmann‑Pons effect and reflecting
scientific interests of their authors.
A. Contributions from the Space and Naval
Warfare Systems Center, San Diego, San Diego, CA 92152‑5001 (formerly: Naval
Command, Control and Ocean Surveillance Center, RDT&E Div., San Diego, CA)
A1. Journal publications
A1-1. S.
Szpak, P. A. Mosier Boss and J. J. Smith, On the behavior of Pd deposited in
the presence of evolving deuterium, J. Electroanal. Chem., 302, 255 (1991)
A1-2. S. Szpak, C. J. Gabriel, JJ. Smith
and R.J. Nowak, Electrochemical charging of Pd rods, J. Electroanal. Chem.,
309, 273 (1991)
A1-3. S. Szpak, P. A. Mosier‑Boss, S. R.
Scharber and JJ. Smith, Charging of the Pd/nH system: role of the
interphase, J. Electroanal. Chem., 337, 147 (1992)
A1-4. S. Szpak, P. A. Mosier‑Boss, C. J.
Gabriel and JJ. Smith, Absorption of deuterium in palladium rods: model vs.
experiment, J. Electroanal. Chem., 365, 275 (1994)
A1-5, S. Szpak, P. A. Mosier‑Boss, R. D.
Boss and J. J. Smith, Comments on the analysis of tritium content in
electrochemical cells, J. Electroanal. Chem., 373, 1 (1994)
A1-6. S.
Szpak, P. A. Mosier‑Boss and J.J. Smith, Deuterium uptake during Pd‑D co-deposition,
J, Electroanal. Chem., 379, 121 (1994)
A1-7. S‑
Szpak, P. A. Mosier‑Boss, S. P. Scharber and JJ. Smith, Cyclic voltametry of Pd
+ D co-deposition, J. Electroanal. Chem., 380,1 (1995)
A1-8. S.
Szpak, P. A. Mosier‑Boss and J. J. Smith, On the behavior of the cathodically
polarized Pd/D system: Search for the emanating radiation, Physics Letters
A, 210, 382 (1996)
A1-9. S.
Szpak and P. A. Mosier‑Boss, On the behavior of the cathodically polarized Pd/D
system: a response to Vigier's comments, Physics Letters A, 221,
141 (1996)
A1-10. S.
Szpak, P. A. Mosier‑Boss, R‑D. Boss and J.J. Smith, On the behavior of the Pd/D
system: Evidence for tritium production, Fusion Technology, 33,
38 (1998)
A1-11. S.
Szpak and P. A. Mosier‑Boss, On the release of n1H from
cathodically polarized palladium electrodes, Fusion Technology, 34,
273 (1998)
A1-12. P.
A, Mosier‑Boss and S. Szpak, The Pd/nH system: Transport processes
and development of instabilities, I1 Nuovo Cimento, 112 A, 577
(1999)
A2. Proceedings of ICCF
A2-1. S.
Szpak, P, A. Mosier‑Boss and J. J. Smith, Reliable procedure for the initiation
of the Fleischmann‑Pons effect, Proc. ICCF ‑ 2 (1991)
A2-2. S.
Szpak, P. A. Mosier‑Boss, Comments on the Methodology of Excess Tritium
Determination, Proc. ICCF ‑ 3 (1992)
B. Contributions from the Naval Air Warfare
Center Weapons Division, China Lake, CA
B1. Journal publications
B1-1. M. H.
Miles and R. E. Miles, Theoretical Neutron Flux Levels, Dose Rates, and Metal
Foil Activation, .J. Electroanal. Chem., 295, 409 (1990)
B1-2. M. H.
Miles, K. H. Park and D. E. Stilwell, Electrochemical Calorimetric Evidence for
Cold Fusion ill the Palladium‑Deuterium System, J. Electroanal. Chem., 296,409
(1990)
B1-3. B. P.
Bush, J. J. Lagowski, M. H. Miles and G. S. Ostrom, Helium Production During
the Electrolysis of D20 ill Cold Fusion Experiments, J. Electroanal. Chem.,
304, 271 (1991)
B1-4. M. IL
Miles, R. A. Hollins, B. F. Bush, J. J. Lagowski and B.E. Miles, Correlation of
Excess Enthalpy and Helium Production During D2O and H2O
Electrolysis, J. Electroanal. Chem., 346, 99 (1993)
B1-5. M. E.
Miles, B. F. Bush and D. E‑ Stilwell, Calorimetric Principles and Problems in
Measurements of Excess Power During Pd‑D2O Electrolysis, 98,
1948 (1994)
B1-6. M. E.
Miles, B. F. Bush and J. J. Lagowski, Anomalous Effects Involving Excess Power,
Radiation and Helium Production Using Palladium Cathodes, Fusion Technology,
25, 478 (1994)
B1-7. M. H.
Miles and B. F. Bush, Heat and Helium Measurements in Deuterated Palladium, Trans.
Fusion Technology 26, 156 (1994)
B1-8. M. H. Miles, Reply to "Examination
of Claims of Miles et al. in Pons-Fleischmann Type. Cold Fusion Experiments, J.
Phys. Chem. B 102,3642 (1998)
B1-9. M. H‑ Miles, Calorimetric Studies of Pd/D2O
+ LiOD Electrolysis Cells, J. Electroanal.. Chem., 482, 56 (2000)
B1-10. M. H. Miles and K. B. Johnson,
Electrochemical Insertion of Hydrogen into Metals and Alloys, J. New Energy,
(in press)
B2. Proceedings of ICCF
B2-1. M. H. Miles, K. H. Park and D. E.
Stilwell, Electrochemical Calorimetric Studies of the Cold Fusion Effect, Proc.
ICCF- 1 (1990)
B2-2. M. H. Miles, G.S. Ostrom, B.F. Bush and
J.J. Lagowski, Heat and Helium Production in Cold Fusion Experiments, Proc.
ICCF – 2 (1991)
B2-3, M. H. Miles and B. F. Bush, Search for
Anomalous Effects Involving Excess Power, Helium and Tritium During D20
Electrolyses Using Palladium Cathodes, Proc. ICCF ‑ 3 (1993)
B2-4. M. H. Miles and B‑ F‑ Bush, Calorimetric
Principles and Problems in D2O Electrolysis, Proc. ICCF‑3
(1993)
B2-5. M. H. Miles, The Extraction of
Information from an Integrating Open Calorimeter in Fleischmann‑Pons Effect
Experiments, Proc. ICCF‑ 5 (1995)
B2-6. M. H. Miles and B. F. Bush, Radiation
Measurements at China Lake: Real ODR Artifacts, Proc. ICCF ‑ 7 (1998)
B2-7. M. If. Miles, Calorimetric Studies of
Palladium Cathodes Using Fleischmann-Pons Dewar Type Cells, Proc. ICCF ‑ 8
(2000)
C. Contributions from
the Naval Research Laboratory, Washington, DC.
C1. Journal publications
C1-1. T. A. Chubb and S. R. Chubb, Bloch‑Sym
metric Fusion in PdD, Fusion Technology, 17, 710 (1990)
C1-2. T. A. Chubb and S. R. Chubb, Cold Fusion
as an Interaction between Ion Band States, Fusion Technology, 20,
93 (1991)
C1-3. S. R. Chubb and T. A. Chubb, Ion Band
State Fusion: Reactions, Power Density and the Quantum Reality Question, Fusion
Technology, 24, 403 (1993)
C1-4. S. R. Chubb and T. A. Chubb, The Role of
Hydrogen Ion Band States in Cold Fusion, Fusion Technology 26, 414 (1994)
C1-5. S. R. Chubb and T. A. Chubb, Theoretical
Framework for Anomalous Heat without High Energy Particles from Deuteron Fusion
in Deuterium‑Transition Metal Systems, Trans. Am. Nucl. Soc. 83,362
(2000)
C1-6. S. R. Chubb, Review of "Excess Heat:
Why Cold Fusion Research Prevailed", Fusion Technology, 39,288
(2001)
C1-7. P. L. Hagans, D. D. Dominguez and M~ A.
Imam, Surface Composition of Pd Cathodes, Progress
in New Hydrogen Energy, vol. 1 p. 249 (1996)
C2. Proceedings of ICCF
C2-1. S. R. Chubb and T. A. Chubb, Quantum
Mechanics of "Cold" and "Not‑So Cold" Fusion, Proc.
ICCF‑1, 119 (1990)
C2-2. S. R. Chubb and T. A. Chubb, An
Explanation of Cold Fusion and Cold Fusion By‑Products, Based oil Lattice‑Induced
Nuclear Chemistry, Proc. ICCF‑2 (1991)
C2-3. S. R. Chubb and T. A. Chubb, Ion Band
State Fusion, Proc. ICCF ‑ 3 (1992)
C2-4. T. A. Chubb and S. R. Chubb, The Ion Band
State Theory, Proc. ICCF – 5 (1995)
C2-5. S. R. Chubb and T. A. Chubb, Hidden
Results of the. Ion Band State Theory Proc. ICCF ‑ 6 (1996)
C2-6. T. A. Chubb and S. R. Chubb,
Radiationless Cold Fusion: Why Small Crystals are. Better, Ncell
Requirement and Energy Transfer to Lattice, Proc. ICCF ‑6 (1996)
C2-7. S. R. Chubb and T. A. Chubb, Periodic
Order, Symmetry and Coherence in Cold Fusion, Proc. ICCF ‑ 7 (1998)
C2-8. S. R. Chubb and T. A. Chubb, Really Cold,
Cold Fusion, Proc. ICCF – 7 (1998)
C2-9. T. A. Chubb and S. R. Chubb, Deuteride
Induced Strong Force Reactions, Proc. ICCF ‑ 7 (1998)
Volume
2: Simulation of the Electrochemical Cell (ICARUS) Calorimetry
FOREWORD
The
calorimetry of any electrochemical cell involves two type of activities: data
collection and data evaluation. The required data are the cell potential‑time
and cell temperature‑time series. The evaluation is based on conservation laws
subject to constraints dictated by cell design and the adapted experimental
procedure.
Volume.
2 of this report deals with the modelling and simulation of the Dewar‑type
calorimeter. It was written by Professor Fleischmann to provide an
authoritative discussion of the calorimetry of electrochemical cells. The
emphasis is on the interpretation of data and the accuracy of the determination
of the excess enthalpy generation via the appropriate selection of heat
transfer coefficients. The discussion of the calorimetry of the Dewar‑type
cells is presented in the form of technical report for a number of reasons,
among them: (i) its length would likely prohibit publication in topical
journals, (H) to clarify, misunderstandings regarding the principles of
calorimetry as applied to electrochemical cell in general and to the cell
employed by Fleischmann and his collaborators, in particular.
S. Szpak
and P.A. Mosier‑Boss, eds.
TABLE OF CONTENTS
INTRODUCTION 1
SYMBOLS USED 3
1. THE EVOLUTION OF THE ICARUS DATA
EVALUATION STRATEGIES 5
2. DEFINITION OF THE HEAT TRANSFER COEFFICIENTS 7
3. DIFFERENTIAL EQUATIONS GOVERNING THE BEHAVIOR OF
THE CALORIMETERS: SIMULATIONS OF THE TEMPERATURE TIME SERIES 17
4. SPECIFICATION OF THE ICARLUS‑1 EXPERIMENTAL PROTOCOLS
AND DATA EVALUATION PROCEDURES 23
5. EVALUATION OF THE "RAW DATA"
GENERATED USING THE SIMULATION DESCRIBED IN SECTION 4 25
6. EVALUATION OF A MEASUREMENT CYCLE FOR A
"BLANK EXPERIMENT" USING AN ICARUS‑2 SYSTEM 33
7. ASSESSMENT OF THE SPECIFICATION OF THE ICARUS‑1 EXPERIMENTAL PROTOCOLS
AND DATA EVALUATION PROCEDURES 43
REFERENCES 47
FIGURES 49
TABLES 117
5. 9th
Russian Conference on Cold Nuclear Transmutation of Chemical Elements
(September/October, 2001)
大会委員長のバジュートフY. Bazhutovから2001年9月30日-10月7日にソチ近郊で開かれた表記会議「第9回元素の常温核変換ロシア会議」のプログラムがおくられてきました。このプログラムから、ロシアでの常温核融合研究の現状を読み取ることができるでしょう。
PROGRAM
Arrival and registration of participants
10:00 ‑ 17:00
Welcome reception at the Conference hall
17:00 ‑ 19:00
Opening of the Conference, greetings
10:00
10:00 ‑ 12:00 Chair: Bazhutov Yu. N
1). Romodanov V.A., Pokrovski A.K.
Hydrogen Isotopes and Thermal Plants
2). Romodanov V.A., Pokrovski AX,
Skuratnik Ya.B,
Tritium Registration in Metal‑Hydrogen
Systems
3). Skuratnik Ya.B. Pokrovski AX,
Possibility of Obtaining Superfluous Energy at
Electrolytic Water Decomposition
4). Kuznetsov V.D.,: Myshinski GN.,Arbuzov V1,
Zemennik V1
Test Experiments on Observation of
the Effects of Cold Transmutation of Elements
Session 2
15:00 ‑ 17:00 Chair: Samsonenko N.V.
5). Bazhutov Yu N, Kozlov, Yu.V. Kumantseva,
WA, Martemyanov, VY, Pletnikov, E.V., Sabeinikov, V.G., Tarasenkov, V.G.,
Turbin, E.V., Vyrodov V. N.
Preliminary Results of the Solar
Erzion Monitoring on the "DOCH‑4A" telescope
6). Bazhutoy Yu.N. Analysis of Urutskoev
Experiment Results in Framework of Erzion
Catalysis Model of Cold Nuclear Transmutation
7). Bazhutoy YuX
Erzion Interpretation of Kasagi
Experiment
8). Serov V. I. et al.
The topic of the Report will be
stated at the Conference
Session 3
10:00 ‑ 12:00 Chair: Romodanov V.A.
9). Karabut A.B.
Excess Heat
Power, Nuclear Products and xRay Emission in Relation to the HighCurrent Glow
Discharge Experimental Parameters
10). Velikodnyi V.Yu., Bitiurin V.A.
Cluster Synthesis of Light Nuclei
D+D
11). Velikodnyi V.Yu., Elizarov V.A.
Experimental
Investigation of the Work of the Vortical Heater
12). Urutscoey 1,1, Liksonov V1, Kalenski V.A.,
Ryabova R.V., Knitukov C.B.
Disclosure of "strange"
Radiation at Electrical Blast of conductors in a Liquid
15:00 ‑ 17:00 Chair: Goryachev I.V.
13). Dougar‑Jabon V.1), Kariaka V1, Samsonenko
N.V.
A Search of
Optimum Conditions stimulating Neutron Emission from Palladium‑Deuterium System
at Transformation of a crystal Lattice
14). Kariaka V1, Resnikov D.V., Samsonenko N.V.
Experiment
on Stimulation of Nuclear Reactions in Deuterated Pd‑Ni Alloy
15) Vysotski V1, Korniliva A.A., Samoylenko I.l.,
Zykov G.A.
Catalytic
Effect of Cesium upon the Effectiveness of Nuclear Fusion with Participation of
Intermediate Mass isotopes in Biological Systems
16). Rodionov B.U.
Hypothetical
Producers of Cold Nuclear Transmutations in Hierarchy of Elementary Particles
Session 5
10:00 ‑ 12:00 Chair: Karabut A.B.
17). Koldimasov A.I.
Principles
of Work of New Type Nuclear Reactor
18). Baranov D.S.
Investigation
of the Radiation Effects in the Koldomasov Cell
19). Bychkov V.L.
New Results on Physics of Ball
Lightning
20). Zelenski VY, Poliyashenko K.F.
Generation
of isotope 18373Th during LiOH-D2O solution
pulsed electrolysis in unit with palladium cathode and tungsten anode
15:00 ‑ 17:00 Chair: Savvatimova
I.B.
21). Fulvio Frisone
Cold Fusion
Reaction within a Microcrack with CFC Lattice structure at Low Energy and Study
of the Non Semi‑Classic Tunnelling Effect
22). Chemov I.P., Borisov V.P., Larinov
V.V., Cherdantsev Yu,P., Lider AM, Garanin G.V., Nikolaev A.G.
Excess Heat in the Process of
Electrolytical 1 Saturation of Palladium with hydrogen
23). Zikov E.D., Zikova T.N.
Discovery of the New State of
Substance ‘superwater'
24). Soboley et al.
The topic of the Report will he stated at the
Conference
Session 7
10:00 ‑ 12:00 Chair: Baranov D.S.
25). Solin M.I.
Environmentally
Safe Quantum Nuclear Reactor
26). Nosov V.N.
Basis for
Selection of the Type of Acoustical Transducer for Conducting Investigations in
Nuclear Physics
27). Nosov V.N.
Acoustical
Transducer for Increasing Generation of Neutrons Working in Regime of
Cavitation
28). Goryachcv IN.
The topic
of the Report will be stated at the Conference
15:00 ‑ 17:00 Chair: Serov V.1.
29). Savvatimova I.R.
Reduction
of Radioactivity in Glow discharge is Possible or Not
30). Kozoderov V.V., Kuzmin RX, Kuleshov
A.A.
Radioactivity of Flow Medium of the
Earth
31). Grishin V.G., Davidov A.D.
Plasmadynamic
Reactor for neutralization of Protons and Deuterons in Natural Water
Session 9
10:00 ‑ 12:00 Chair: Chernov LP.
32). Kholodov L.I.
Reasons
about the Tracks in Urutskoev's Experiment
33). Roussetski A.S., Saunin E.I.
Observation
of long‑range alpha‑particle emission from PuN12 structure
34). Karasev B.V.
Statistically
Significant Deviation from Poisson Distribution During Radioactive Decay
Measurement
35). Karasey B.V.
New results
on fluctuations in Radioactive Decay. Fluctuations of Media (physical vacuum,
ether, thermostat) as the Reasons of Deviations in Conduct of Systems of
Particles from the Normal Functions of Distribution
15:00 ‑ 17:00 Chair: Nosov V.N.
36). Lipson A.G., Kuznetsov V.A., Saunin
E1
Separation
of Isotopes at Electrochemical Loading I'd with Deuterium. About the Nature of
"Savvatimova Effect”
37). Lipson A.G., Roussetski A.S., Miley
0.11, Castano C.H.
In‑Situ
Long‑Range Alpha Particle detection in PdO/Pd/PdO Hetero-structure and Pd.
Multi‑layer Thin Film Cathodes During and After Electrolysis
38). Lipson A.G., Miley G.H., Kuznetsov
V.A., Saunin E.I.
Anomalous
Neutron capture and Structural Changes in Non‑Equilibrium Condensed Matter in
Presence of an Ultraweak Thermalized Neutron Field
39). Tsvetkov, Sergey A.
Opportunity of Use of Cold Nuclear Fusion for
the Transmutation of Nuclear Waste Products. (This article is added to the
Program by the request of S.A. Tsvetkov who presented this paper at the
Conference.)
10:00 ‑ 12:00 Chair: Bazhutov Yu. N
Discussion of the participants of the
Conference
Final resume of the Chairman
Relaxation
Guest departures