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2 16389 wi ( ma mb ) ( Elab ) (11) 2 31.4Za Zb 2 2 2 mamb E lab Exp 1 [( C1 C2Elab ) ( wi ) ] E lab m a 31.4Z aZ b Exp 1 E lab m a Here, Elab is the incident energy in the laboratory system in unit of keV. For deuteron incident, (ma, Za)=(2,1), etc. (C1, C2, wi) is from Table I and II. (3) Detection of neutrino emission from the metal deuterides would be a critical step for the research of the condensed matter nuclear science because the selective resonant tunneling of Coulomb barrier at very low energy must be accompanied neutrino emission which is the necessary products of any weak interactions. There are four possible sites for neutrino detection: DUSEL (South Dakota, USA), KamLand (Japan), Gran Sasso(Italy), and Da-Ya Bay (Canton, China). The positive results of neutrino detection from the metal deuterides would finally turn over the world view on CMNS research Acknowledgments This research is supported by the Natural Science Foundation of China(#10475045), the China Association of the Science and Technology, The Ministry of Science and Technology (Fundamental Research Division), Tsinghua University (Basic Research Fund (985-II)). References 1. Arata, Y., and Zhang, Y-C., Proceedings of ICCF-14, Washington D.C., Aug. 10-15, 2008. 2. Violante,V. et al., Proceedings of ICCF-14, Washington D.C., Aug.10-15, 2008. 3. Duane, B. H., “Fusion cross section theory”, in annual Report on CTR Technology 1972(WOKENHAUER, W.C. Ed.), Rep.BNWL-1685, Battelle Pacific Northwest Laboratory, Richland, WA (1972). 4. Book, D. L., NRL Plasma Formulary, Naval Research Laboratory, Washington D.C. (Revised 1980) p.44. 5. Bosch, H. S., Hale, G. M., Nuclear Fusion 12 (1992) 611. 6. Huba, J. D., NRL Plasma Formulary, Naval Research Laboratory, Washington D.C. (Revised 2007) p.44.( Indeed there was another mistake in the citation of NRL Plasma Formulary. The reference [28] there “Rept.BNWL-1685 (Brookhaven National Laboratory, 1972) ” should be corrected as “Rept.BNWL-1685(Battelle Pacific Northwest Laboratory, 1972), p.76”. This mistake was pointed out early in 2002[14].) 7. Li, X. Z., Tian, J., Mei, M. Y., and Li, C. X., Phys. Rev. C 61 (2000) 024610. 8. Li, X. Z., Liu, B., Chen, S., Wei, Q. M., and Hora, H., Laser and Particle Beams 22 (2004) 469. 631
9. Chadwick, M. B., Oblozinsky, P., Herman, M., at al.,"ENDF/B-VII.0: Next Generation Evaluated Nuclear Data Library for Nuclear Science and Technology", Nuclear Data Sheets, vol. 107, pp. 2931-3060, 2006. 10. Chen, S., Li, X. Z., “Tritium Production and Selective Resonant Tunneling Model”, Proceedings of ICCF-9, May 19-24, 2002, Beijing China, Ed. X. Z. Li, (Tsinghua Univ. Press), p.42 11. Mamyrin, B. A., Khbarin, L. V., and Yuderich, V. S., “Anomalously High Isotope Ratio 3 4 He/ He in Technical-grade Metals and Semiconductors,” Sov. Phys. Dokl. 23(8). Aug. 1978, p. 581. 12. Hubler, G. K., et al., private communication. August, 2008. 13. ERAB, Report of the Cold Fusion Panel to the Energy Research Advisory Board. November, 1989, Washington, DC. DOE/S-0073 DE90 005611 14. Li, X. Z., Fusion Sci. and Tech. 41 (2002) 63. 632
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Proceedings of the 14th Internation
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Table of Contents VOLUME 1 Preface
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Photon Measurements 326 Excess Heat
Page 7 and 8:
Investigation of Deuteron-Deuteron
Page 9 and 10:
Introduction to Cavitation Experime
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Bubble Driven Fusion Roger Stringha
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to the density of muon fusion syste
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4.184 Joules/calorie to give Qo. No
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References 1. M. P. Brenner, S. Hil
Page 19 and 20:
Experiments on stimulation of cavit
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foil (thickness 0.1 mm) was situate
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the external surface of thick wall
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Introduction to Materials The outco
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the foils, and the effects of subse
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Material Science on Pd-D System to
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level required higher current compa
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morphology, and surface morphology
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Figure 11. Evolution of the input a
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Electrode Surface Morphology Charac
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fundamental peak; on the other hand
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RPSD@ max (x10 -32 m 4 ) 0.20 0.10
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2. V. Violante, F. Sarto, E.Castagn
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Experimental Starting with the meta
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Figure 3.1. A typical database reco
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palladium lot as received. Differen
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Condensed Matter “Cluster” Reac
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Loading Measurements A high-vacuum
Page 55 and 56:
Reaction Rate Estimates An estimate
Page 57 and 58:
References 1. Andrei Lipson, Brent
Page 59 and 60:
Introduction to the Theory Papers P
Page 61 and 62:
Foundations: Experimental Evidence,
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Such results are applicable to a wi
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electrostatic fields, that could ge
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Theory Papers 1. V. Adamenko & V.I.
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Figure 1. The general view and deta
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So with a high probability the unkn
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Potential energy of pair (without m
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the corresponding electron wave fun
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applicable in case of interaction o
Page 79 and 80:
The expression in the exponent of (
Page 81 and 82:
Empirical System Identification (ES
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esults of the previous sections to
Page 85 and 86:
The higher the mass of a particle (
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The Hubbard model [18, 19], along w
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A B Figure 2. Atomic Arrangements o
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deuterons, their interaction is aff
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expected in D-D reactions is that w
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It is being argued that, while heav
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with odd permutations weighted by -
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20. C. Elsasser, K.M. Ho, C.T. Chan
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must have positive Bose Exchange sy
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these different statements that ref
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Fig.2 shows a pictorial representat
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(a) A Pictorial Representation of V
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esonance” can take place, in whic
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interior boundaries of the ordered
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Interface Model of Cold Fusion Talb
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D + Bloch "atom" sublayer, 3) epita
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sometimes stimulating an irreversib
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Toward an Explanation of Transmutat
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Given the well-established validity
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The next question is, therefore, if
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An Experimental Device to Test the
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Figure 1. Palladium/deuterium total
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Experimental Reaction enthalpies of
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10. J. Dufour, X. Dufour, D. Murat
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Together with the Coulomb-repulsion
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“The Coulomb Barrier not Static i
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2 16 2 gc 27 3 So, a solution for
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Moreover, we study the “nuclear e
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Then, according to the loading quan
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Having mapped that the -phase depen
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Considering the attractive force, d
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The expression (45) was partially e
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Table 1. Using the phase potential
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10. A.De Ninno et al. Europhysics L
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Fusion system still outperformed th
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Van der Waals attraction occurs at
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Quantum Fusion (QF) Quantum Fusion
Page 159 and 160: Energy exchange There is some exper
Page 161 and 162: of the weak coupling matrix element
Page 163 and 164: Figure 3. Energy levels that contri
Page 165 and 166: Input to Theory from Experiment in
Page 167 and 168: substrate, and excess heat is obser
Page 169 and 170: 4. Laser stimulation Letts and Crav
Page 171 and 172: energetic particles are produced, o
Page 173 and 174: 15. K. Kunimatsu, N. Hasegawa, A. K
Page 175 and 176: A Theoretical Formulation for Probl
Page 177 and 178: at some point we will require tools
Page 179 and 180: 3. Matrix element example The appro
Page 181 and 182: Now the wavefunction on the RHS has
Page 183 and 184: Theory of Low-Energy Deuterium Fusi
Page 185 and 186: If mobile deuterons in a metal are
Page 187 and 188: allowed since [Z1/m1] = [Z2/m2], an
Page 189 and 190: traps (in 3g of Pd particles with a
Page 191 and 192: 9. S.N. Bose, Z. Phys. 26, 178 (192
Page 193 and 194: system composed of host nuclei and
Page 195 and 196: A simple specific form of beff (p)
Page 197 and 198: Nuclear Transmutations in Polyethyl
Page 199 and 200: Furthermore, there are interesting
Page 201 and 202: The NT’s in phenanthrene [7] may
Page 203 and 204: explains why there is no neutron em
Page 205 and 206: T+T Fusion CrossSection (Barn) T+T
Page 207 and 208: science, the incident energy is so
Page 209: When the incident energy approaches
Page 213 and 214: He = Em C + m Cm + tmn (C + m Cm
Page 215 and 216: where k 2 = (2 Md Ea / ħ ) = Md 2
Page 217 and 218: y altering the shape of the Coulomb
Page 219 and 220: Analysis and Confirmation of the
Page 221 and 222: This is the basic Langevin equation
Page 223 and 224: The fusion rate is calculated by th
Page 225 and 226: EQPET molecule must go back and con
Page 227 and 228: Introduction to Challenges and Summ
Page 229 and 230: notes that the common usage of the
Page 231 and 232: insufficient to allow us to reprodu
Page 233 and 234: in the early days of semiconductors
Page 235 and 236: Water In Acrylic Toppiece Gas Tube
Page 237 and 238: Much of this uncertainty would be r
Page 239 and 240: Figure 5. The effect of input power
Page 241 and 242: maximum values. From these values w
Page 243 and 244: considerably that they were enginee
Page 245 and 246: Technogies”, in 11th Internationa
Page 247 and 248: Self-Polarisation of Fusion Diodes:
Page 249 and 250: We propose that in this field of on
Page 251 and 252: Results A. Self-sustained voltage O
Page 253 and 254: Figure 6. Differential calorimeter
Page 255 and 256: Weight of Evidence for the Fleischm
Page 257 and 258: Figure 1. Multiple support for a hy
Page 259 and 260: P(D | T) = P(T | D) P(D) / P(T) = 0
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For more information about Bayesian
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positive is in the range 0.980 ± 0
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With the notation Emn = “m heads
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3.1. Selected papers Cravens and Le
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Table 3. P(Eif | Pf) Table 4. P(Ein
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Condensed Matter Nuclear Science”
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4. J. Breese and D. Koller, “Tuto
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Taking the nuclear origin of copiou
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The evolution of protoscience into
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References 1. Mosier-Boss, P.A., et
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Cold fusion (CF) is a potentially r
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ISCMNS has initiated a CF-dedicated
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Table 2. Current Methods and Propos
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For the CF/OSSc project, the ISCMNS
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ole of skeptical mainstream physici
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sized Pd and Pd alloy particles. Ap
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Honoring Pioneers For most fields o
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A&Z introduced new terms to describ
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The top portion of Fig. 3 shows plo
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Figure 7. New catalyst shows nano-P
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catalyst to outer vessel wall is 7
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Establishment of the “Solid Fusio
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Figure 1. Experimental Device Figur
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[The protocol for producing the ZrO
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Figure 5A. Comparison of generation
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Figure 6. Gas pressure characterist
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Note on Sources The Abstract is a r
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37. Arata Y, Zhang Y-C; Proc. Japan
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LENR Research using Co-Deposition S
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that the tritium production was spo
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(a) (b) (c) Figure 4. Images obtain
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SPAWAR Systems Center-Pacific Pd:D
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7. S. Szpak, P.A. Mosier-Boss, S.R.
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17. S. Szpak, P.A. Mosier-Boss, and
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Preparata Prize Acceptance Speech I
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Cold Fusion Country History Project
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2. “Condensed Matter Nuclear Scie
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need for a coordinated effort in ma
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Colloid J. USSR 48, 8(1986)). In 19
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scientists on the problem of Cold F
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Financial support for the conferenc
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Author Index Pages are in Volume 1
Page 345:
Wang, J., 299 Watanabe, A., 338 Wei
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