CFRL News No. 52 (2003. 12. 20)
Cold Fusion Research Laboratory (Japan) Dr. Hideo Kozima, Director
E-mail address; cf-lab.kozima@nifty.ne.jp
Websites; http://www.geocities.jp/hjrfq930/
Newsのバックナンバーは上記ウェブサイトでご覧になれます
常温核融合現象CFP(The Cold Fusion
Phenomenon) は、「背景放射線に曝された、高密度の水素同位体(H and/or D)を含む固体中で起こる、核反応とそれに付随した事象」を現す言葉です。
CFRL News No.52をお送りします。この号では、次の記事を掲載しました。
1. ICCF10が開かれました。
2. ICCF10のアブストラクトの目次
1.
ICCF10が開かれました。
ICCF10が8月の24日から29日まで、アメリカのマサチューセッツ州ボストン市に隣接するケンブリッジ市で開かれました。従来のICCFに比べて、幾つかの特徴のある会議になりましたが、実施委員会からのアナウンスメントが節約されて、ICCF10のWebsiteに掲示された情報を参加者がいつも注意していないといけないというのは、ちょっと不便なことでした。下にProceedingsへの投稿に関する掲示を引用しましたが(2)、World Scientific社から出版されるProceedingsに掲載される論文と、Jed RothwellのWebsiteに掲示される論文とを同じ所へ送ることになっており、混乱の生ずる恐れがなきにしもあらすです。
印刷されるProceedingsに掲載されるように送った小生の論文を、このNewsの添付資料として掲示します。本当に印刷されるのかどうか確かでないので、このような形で公開しておく必要を感じます。(図が現れないようですので、図は元のWebsiteの
http://web.pdx.edu/~pdx00210/News/NewsPrefaces/Ns51Fig.pdf
を参照して下さい。)
会議には24,25日の二日しか参加できなかったので、最終的なまとめは知らないのですが、今回の会議でも常温核融合現象を確かめる多くの実験が発表されました。しかし、会議の中で明らかにされた、イタリアの一研究者からの実行委員会への手紙は、われわれの研究が物理学界で意識的に無視されていることを明瞭に示しています。その最大の原因は、他の分野の研究者の狭量と短視眼にあります。しかし、原因の一つは、常温核融合研究者の閉鎖性にあることも確かです。他の分野の研究者とはもとより、この研究分野内でもほとんど批判的討論がなされない状態では、健全な科学的な研究が進む条件が欠けやすいことは明らかです。さらに、過去の研究成果を正当に評価しない風潮が見られるのも悲しむべきことです。
上記のイタリアの研究者は、その手紙の終りに、「科学以外のことをこの分野(常温核融合研究)に取り入れる必要があるのではないか」と述べています(以下(1)に最後の文章を引用)。私見では、最も必要なことは科学的な研究態度の貫徹以外にないでしょう。はじめに失われた信頼を取り戻すには、時間はかかっても地道に努力するしか方法はないと思います。
(1) イタリアの研究者の手紙から。”Of course my
scientific interest in cold fusion is now increased by the feeling to be closer
than ever to the goal, but it seems that something else but science can be
taken into account in this field. I wish you succeed in your researches and
really hope to meet you again in future ICCFs.”
(2) ICCF10 ウェブサイトからの引用: “The ICCF-10 conference finished on August 29. The conference abstracts
and other information on this website has been transferred to a new section at LENR-CANR.org.
An electronic version of the proceedings will be established there as papers
from the authors are received. This site will be maintained for a few months.
NOTICE: The ICCF-10 Steering Committee, in its infinite wisdom, has taken pity
on the authors and moved the deadline from Sept. 10 to Oct. 1, 2003. Please
repay this consideration with your prompt submission.
Authors contributing papers to the proceedings will find
instructions below.
Scientists presenting oral
or poster presentations are expected to contribute manuscripts to the
conference proceedings. We will publish two versions of the ICCF-10
Proceedings:
1. A
hardbound book printed by World Scientific Publishing.
Figures must be in black and white, and page length is limited to 12 pages for
Plenary Talks and 6 pages for Poster Session-only papers. Detailed instructions
from World Scientific are shown below. Please submit this version of
your paper to Editors@lenr-canr.org.
We will check submissions for e-mail viruses and forward them to Peter
Hagelstein and Scott Chubb.
2. An
unoffical, online, electronic version in a new section of LENR-CANR.org. This
is optional; let us know if you do not want to be included. There are no
restrictions to this version. You may, of course, use the exact same version as
the World Scientific paper. Or, if you prefer, you can submit a longer version
with as many color graphs, illustrations and photographs as you like. Simply
send the expanded version to Editors@lenr-canr.org
with a different title. When you submit a paper to the on-line proceedings, we
may edit it for spelling and grammar. As soon as it is completed to your
satisfaction we will upload it. We will not wait for the printed version of the
proceedings to be published, and we will not wait for papers from other authors
to arrive. You may submit papers in any common word processor format such as
Microsoft Word or WordPerfect. We will convert your paper to Acrobat format. We
can accept an Acrobat file, but it is usually easier for us to deal with word
processor formats.
LENR-CANR also welcomes
copies of your PowerPoint presentations or poster session material. You can
incorporate PowerPoint slides in your paper, or submit them as a separate
document, to be listed separately in the LENR-CANR Library index.
If you have figures or
drawings only on paper, not in a computer format, or you have files too large
to be sent by e-mail, mail them to:
Jed Rothwell
LENR-CANR.org
1954 Airport Road
Suite 204
Chamblee, GA 30341
Tel: 770-451-9890. We accept floppy disks or CD-ROMs. Feel free to call
for more detailed instructions.”
2. アブストラクトの目次(Abstracts of Tenth
International Conference on Cold Fusion (ICCF‑10))
Cambridge, Massachusetts 24 ‑ 29 August 2003
Table of Contents (Abstracts are listed by primary author)
(For readers’ convenience, the abstracts are numbered according to the
order in this list at citation. Some changes in spelling are made also to keep
style of the list as uniform as possible.)
(1) Experimental Observation And Possible Way Of Creation Of Anomalous
Isotopes And Stable Super-heavy Nuclei Via Process Of Electron‑Nuclear Collapse
—Stanislav V. Adamenko p.8
(2) Ascending
Diffusion Or Transmutation —Afonichev Dimitriy p.10
(3) High‑Frequency Radiation And Tritium Channel —Afonichev Dimitriy D p. 11
(4) Characteristics
of Compact and Practical "Solid Deuterium Nuclear Fusion Reactor" —Yoshiaki Arata and Yue Chang Zhang p.12
(5) Chief
Challenge to Cold Fusion Theory? —Robert W. Bass p.13
(6) Generalized
Cold Fusion Demonstration Protocol —Robert W. Bass, Michael C. H. McKubre p.14
(7) Meta-Stable
Deuterium (MSD) as Ideal Cold Fusion Fuel —Robert W. Bass p.15
(8) Optimal
Wavelength for Laser‑Induced Cold Fusion —Robert W. Bass p.16
(9) Spectrum
of Resonant Transparency of Coulomb Barrier —Robert W. Bass p.17
(10) The
History of the Discovery of Transmutation at Texas A&M University —John OM Bockris
p.18
(11) Cold Fusion Phenomenon: a Hypothesis —Colin K. Campbell p.19
(12) Catalytic
Fusion of Deuterium: 11, Heat Output and Activation Energy from New Palladium
Catalyst —Les Case, Sc. D p.20
(13) Energetic Charged Particles from Deuterium‑Metal Systems —F. E. Cecil, H.
Liu and C. S. Galovich p.21
(14) Thermal
and isotopic anomalies when Pd cathodes are electrolysed in electrolytes
containing Th‑Hg salts dissolved at micromolar concentration in C2H5OD/D2O
mixtures —Francesco Celani, A.
Spallone, P. Marini, V. di Stefano, M. Nakamura, A. Mancini p.22
(15) Coherence Factors In Many‑Particle Three‑Level Systems —Irfan Chaudhary and Peter Hagelstein p.24
(16) Few‑Body
Nuclear Wave functions —Irflan Chaudhary and
Peter Hagelstein p.25
(17) The
Application of Multiple Scattering Theory (MST) in Calculating the Deuterium
Flux Permeating the Film —Si Chen, Xing Z. Li p.26
(18) Comment
On Carbon Production In Deuterium‑Metal System —Dan Chicea p.27
(19) Accountability
in Research in the Cold Fusion Controversy —Scott R. Chubb p.28
(20) Impact
of Boundary Effects Involving Broken Gauge Symmetry on LENR's —Scott R. Chubb p.29
(21) Metal
Deuterides: Theory and Experiment —Scott R. Chubb and Peter L. Hagelstein p.30
(22) Nuts
and Bolts of the Ion Band State Theory —Scott R. Chubb p.31
(23) LENR:
Self‑Trapping and Non Self‑Trapping States —Talbot A. Chubb p.32
(24) LENR:
The Cold Fusion and Transmutation Connection —Talbot A. Chubb p.33
(25) Practical
Techniques in CF Research —Dennis J. Cravens,
Dennis G. Letts p.34
(26) Effects
Of Hydrogen Loading By Aqueous Electrolysis On Radioactivity Of Uranium —J. Dash, D. Chicea p.35
(27) 4He
Detection In A Cold Fusion Experiment —A. De Ninno, A. Frattolillo, A. Rizzo, E. Del Giudice p.36
(28) Are Nuclear Transmutations Observed At Low
Energies Consequences Of QED Coherence? —E. Del Giudice, A. De Ninno, A. Frattolillo p.37
(29) Triple
D Fusion Between Deuterons And The Nuclei Of Lattice Trapped D2 Molecules —Kjeld. C. Engvild and Ludwik Kowalski p.38
(30) Theory
of Low‑Temperature Particle Showers —John C. Fisher p.39
(31) Background
To Cold Fusion: The Genesis Of A Concept —M. Fleischmann p.40
(32) The
"Instrument Function" Of Isoperibolic Calorimeters; Excess Enthalpy
Generation Due To The Parasitic Reduction Of Oxygen —M. Fleischmann p.41
(33) Fusion
Reaction Within A Micro-crack With CFC Lattice Structure At Low Energy And
Study Of The Non Semi-Classic Tunnelling Effect —Fulvio Frisone p.42
(34) New Energy Devices Reduce Atmospheric Pollution —Hal Fox p.43
(35) Stabilization
of High‑Level, Radioactive Waste —Hal Fox p.44
(36) New Type Of Radioactivity —F.A. Gareev. Yu. L. Ratis, V.A. Kidvitskiy, I.E. Zhidkova p.45
(37) Thermal
to Electric Energy Conversion ‑‑ Basics, Limits, and Potential —Peter Hagelstein p.47
(38) Models
For Tunnelling Through The Coulomb Barrier —Peter Hagelstein p.48
(39) On the New Electronic Journal —Peter Hagelstein p.49
(40) Unified
Phonon‑Coupled SU(N) Models For Anomalies In Metal Deuterides —Peter Hagelstein p.50
(41) Analysis
of Calorimetric Data Obtained Using Fleischmann/Pons Type Electrochemical Cells
to Determine Excess Heat —Wilford N. Hansen p.51
(42) Replication
Of MHI Transmutation Experiment By D2 Gas Permeation Through Pd Complex —Taichi Higashiyama p.52
(43) Report on Several On‑Going Low Energy Nuclear Reaction Projects at
NR L —G.K. Hubler, C. Cetina, D.L.
Knies and K.S. Grabowski p.53
(44) Low Energy Nuclear Transmutation in Condensed Matter induced by D2
Gas Permeation through Pd Complexes: Correlation between Deuterium Flux and
Nuclear Products —Yasuhiro lwamura, Takahiko Itoh,
Mitsuru Sakano, Satoshi Sakai, Shizuma Kuribayashi p.54
(45) Evidence for Charged Particles Emanating from Deuterided Metal
Foils —Steven E. Jones, Frank W.
Keeney, A. Charles Johnson p.55
(46) Increase Of The Output Of Neutrons In Relation To Background
Deuterium Containing Electrolyte At Their Electrochemical Decomposition By
Super-electrolysis —Y‑ A. Kaliev, J. A. Istomin p.56
(47) Experimental Research into Characteristics of X‑ray Emission from
Solid‑state Cathode Medium of High‑current Glow Discharge —AB. Karabut, S. A. Kolomeychenko p.57
(48) Experimental Research into Secondary Penetrating Radiation when
Interacting X‑ray Beams of Solid Laser with Various Materials Targets —A.B‑Karabut p.59
(49) Production
of Excess Heat Power and Impurity Elements with Changed Natural Ratio of Isotopes at Forming Exited Long‑lived
Atomic Levels with the Energy more than 1 keV in the Solid Cathode Medium of High‑current Glow Discharge
—A. B. Karabut p.60
(50) Low‑Energy
Nuclear Fusion Reactions In Metals —Jirohta Kasagi p.61
(51) Experimental
Test of Bose‑Einstein Condensation Mechanism for Low Energy Nuclear Reaction in
Nano-scale Atomic Clusters —Yeong E. Kim, David S.
Koltick, Ryan Pringer, Jeff Myers, Rhoda Koltick p.62
(52) Quantum
Many‑Body Theory of Low Energy Nuclear Reaction Induced by Acoustic Cavitation
in Deuterated Liquid —Yeong E. Kim, David S.
Kotlick, Alexander L. Zubarev p.63
(53) Calculations
Of Nuclear Reactions Probability In A Crystal Lattice Of Titanium Deuteride —V.A. Kirkinskii, Yu. A. Novikov p.65
(54) D(d,p)t
Reaction Rate Enhancement in a Mixed Layer of Au and Pd —A. Kitamura, Y. Awa, T. Minari, A. Taniike and Y. Furuyama
p.66
(55) Experimental
Observation Of Fusion Of Precious Metals In Growing Microbiological
Associations —Alla A. Kornilova p.67
(56) Cold
Fusion Messages from Teachers —Ludwik Kowalski p.68
(57) CF‑Matter
and the Cold Fusion Phenomenon —Hideo Kozima p.69
(58) Laser
Stimulation of Deuterated Palladium: Past and Present —Dennis G. Letts and Dennis J. Cravens p.70
(59) Characteristics
and Effects of Ball Lightning —Edward Lewis p.71
(60) Cold
Fusion May be Part of a Scientific Revolution —Edward Lewis p.72
(61) Progress in Gas‑Loading D/Pd System, ‑The feasibility of a self‑sustaining
heat generator —Xing Z. Li, Bin Liu. Qirig
M. Wei, Nao N. Cai, Jian Tian 1, Xiong W. Wen, Dong X.Cao2 p.73
(62) Neutron
Yield on the Electric Breakdown of Cavitation Bubbles in Deuterium‑Containing
Matter —Andrei G. Lipson p.75
(63) Strong Enhancement of DD‑reaction Accompanied by X‑ray Generation in a Pulsed Low Voltage High‑Current
Deuterium Glow Discharge with a Ti‑Cathode
—A.G. Lipson, A.S. Roussetski, A.B. Karabut and G.H.
Miley p.76
(64) Triggering A Deuterium Flux In Pd Wire Using Electromagnetic Field —Bin Liu, Xing Z. Li, Lin Yan, Xiong W. Wen p.77
(65) Enhancement of nuclear reactions due to screening effects of core electrons —N. Luo, P. J. Shrestha,
G. H. Miley p.78
(66) First‑principles
studies of ionic and electronic transport in palladium hydride/deuteride —Nie Luo, G. H. Miley p.79
(67) LENR
and "Cold Fusion" Excess Heat: Their Relation to Other Anomalous
Microphysical Energy Experiments and Emerging New Energy Technologies —Eugene F. Mallove p.80
(68) Evidence
Of Cold Fusion In Palladium Exposed To Atomic
Deuterium —Ronald McIntyre p.81
(69) The
need for Triggering in Cold Fusion reactions —M. McKubre. F. Tanzella p.82
(70) A
Calorimetric Investigation Of The Pd/B System —M.H. Miles p.83
(71) Correlation Of Excess Enthalpy And Helium‑4 Production: A Review —M. H. Miles p.84
(72) Fluidised Bed Experiments Using Platinum And Palladium Particles In
Heavy Water —M.H. Miles p.85
(73) Review
of Transmutation Reactions in Highly Loaded Lattice —G. H. Miley, P. J. Shrestha p.86
(74) Generation
Of Heat And Products During Plasma Electrolysis —Tadahiko Mizuno, Tadashi Akimoto. Tadayoshi Ohmori p.87
(75) Metallic Transmutations Induced By Acetic
Acid —Gerardina A. Cesarano-Monti;
Roberto A. Monti p.88
(76) Neutrons,
Polyneutrons. Super Heavy Stable Elements (SHSE) —Roberto A. Monti, Gerardina A. Cesarano‑Monti p.89
(77) Energetics
Of Defects And Isotropic Strain In Palladium —David J. Nagel p.90
(78) Gamma
Ray Detection and Surface Analysis on Palladium Electrode in DC Glow‑like
Discharge Experiment —S. Narita, H. Yamada,
A. Arapi, N. Sato, D. Kato, M. Yamamura. M. Itagaki p.91
(79) Analysis
Of Nuclear Transmutation Induced From Metal Plus
Multi-body‑Fusion‑products Reaction —Masayuki OHTA, Akito TAKAHASH1 p.92
(80) Detection
of Energetic Charged Particles During Electrolysis
—R.A. Oriani and J.C‑ Fisher 93
(81) Energetic
Charged Particles Detected in the Vapor in Electrolysis Cells —R.A. Oriani and J.C. Fisher p.94
(82) Pd‑110/Pd‑108
Isotope Abundance Ratio Variations in Pd Exposed to High Pressure Deuterium Gas
in the Hollow Cathodes of Arata/ Zhang —Thomas O. Passell p.95
(83) Observations
Of A Porous Packed Bed Gaseous Deuterium Filled
Mini‑ Reactor —J. A. Patterson, J. A.
O'Malley, C. E. Entenmann, J. A. Thompson p.96
(84) Positrons
Annihilation And Possible P + D Nuclear Reactions —V. A. Romodanov
p.97
(85) Prospects
Of Intensity Increase Of Nuclear Reactions At Low Energy Interaction Of Hydrogen
Isotopes And Possible Areas Of Their Application —V. A. Romodanov p.98
(86) Tritium
Generation At Low Energy Interaction Of Hydrogen Isotopes With Metals —V. A. Romodanov
p.99
(87) The
LENR‑CANR.ORG Website, Its Past And Future —Jed Rothwell p.100
(88) Nuclear
emissions from materials, including hydrogen and deuterium, induced by laser
beam —A.S. Roussetski, A.G. Lipson,
V.P. Andreanov p.101
(89) Phenomenon
of an Energetic Charged Particle Emission From Hydrogen/Deuterium Loaded Metals
—A.S. Roussetski, A.G. Lipson and G.H. Miley, E.I.
Saunin p.102
(90) Transmutation
Effects In Glow Discharge Hydrogen Experiments —Irina B. Savvatimova p.103
(91) Low Voltage Nuclear Transmutation —Ken Shoulders p.104
(92) Analysis
of Ni‑Hydride Thin Film after
Surface Plasmons Generation by Laser Technique —C, Sibilia, S. Paoloni, E. Castagna, F. Sarto, V. Violante p.106
(93) How
to Make A Cheap and Effective Seebeck Calorimeter —Edmund Storms p.107
(94) Use
of a very sensitive Seebeck calorimeter to study the Pons‑Fleischmann and Letts
Effects —Edmund Storms p.108
(95) What are the conditions required to
initiate the LENR Effect? —Edmund Storms p.109
(96) Cavitation
And Fusion —Roger Stringham p.110
(97) Excess
Heat from Low Electrical Conductivity Heavy Water Spiral‑Wound Pd/D2O/Pt:
and Pd/D2O‑PdCl2/Pt Devices —Mitchell R. Swartz, Gayle M. Verner p.111
(98) Photo-induced
Excess Heat from Laser‑Irradiated Electrically‑Polarized Palladium Cathodes in
Heavy Water —Mitchell R. Swartz p.112
(99) Polarized
D+/Pd-D2O System: Hot Spots and Mini‑explosions —S. Szpak, P.A. Mosier‑‑Boss, J. Dea and F. Gordon p.113
(100) Mechanism of Deuteron Cluster Fusion by EQPET Model —Akito Takahashi p.114
(101)
Studies on 3D Fusion Reactions in TiDx under Ion Beam Implantation —A. Takahashi, H. Miyamaru, K. Ochiai, Y. Katayama, T.
Hayashi. T. Dairaku p.115
(102)
Quantum States of Deuterons in Pd —Ken‑ichi TSUCHIYA p.116
(103)
Excess Heat In Molten Salts Of (LiCl‑KCl) + (Lid + Lif) At
The Titanium Anode During Electrolysis —Tsvetkov S. A, Filatov E. S_ Khokhlov V. A p.117
(104)
Possibility Of Using Of Cold Fusion For Nuclear Waste Products Transmutation
—Tsvetkov S.A p.118
(105) Search for Nuclear Ashes in Electrochemical Experiments —V. Violante ,M. Apicella , F. Sarto , A. Rosada , E.
Santoro p.119
(106) Study of Lattice Potentials on Low Energy Nuclear Processes in
Condensed Matter —V. Violante, F. Sarto, E.
Santoro, L. Capobianco, M. McKuhre, F. Tanzella p.120
(107)
Successful Experiments Of Utilization Of High‑Activity Waste In The
Process Of Transmutation 1n Growing Associations Of Microbiological Cultures —V1adunir I. Vysotskii, Valerii N. Shevel, Alexander B.
Tashirev, Alla A. Kornilova p.121
(108)
The Theory And Experimental Investigation Of Controlled Spontaneous Conversion
Nuclear Decay Of Radioactive Isotopes —V1adinfir I. Vysotskii, Alla A. Kornilova, Yuri D. Perfiliev, Leonid
A.Kulikov p.122
(109)
Excess Heat in Heavy Water‑Pd/C Catalyst Cathode (Case‑type) Electrolysis at
the temperature near Boiling Point —Qing M. Wei, Xing Z. Li, Yan O. Cui p.123
(110) Analysis by Time‑of‑flight Secondary Ion Mass Spectroscopy for
Nuclear Products in Hydrogen Penetration through Palladium —H. Yamada, S. Narita, H. Onodera,
H. Suzuki, N. Tanaka, T. Nyui and T. Ushirozawa p.124
(111) Thermal effects of hydrogen diffusion across metallic tubes —Wu‑Shou Zhang, Min‑Qiang Hou, and Zhong‑Liang Zhang p.125
(112) Anomalous heat absorption in closed Pd/D2O electrolysis
systems —Zhao‑Fu Zhang, Wu‑Shou
Zliang, Min‑Qiang Hou, and Zhong‑Liang Zhang p.126
(113) Loading ratios (H/Pd or D/Pd) monitored by the electrode potential
—Zhong‑Liang Zhang. Man‑Hong Liu, Zhao‑Fu Zhang, Min‑Qiang
Hou and Wu‑Shou Zhang p.127
(114)
Bethe's Calculation for Solar Energy and Selective Resonant Tunnelling Model —Xiang Zhou, Xing Z. Li p.128.