This paper and many others like it describe how HOT fusion is enhanced
when it occurs in a chemical lattice. This study has no relationship
to cold fusion because the same nuclear products are not formed.
While the lattice enhances the hot fusion rate, it does so only at
very low energy where the rate is already very small. Here are some
other studies.
Ed
1. Dignan, T.G., et al., A search for neutrons from fusion
in a highly deuterated cooled palladium thin film. J. Fusion Energy,
1990. 9(4): p. 469.
2. Durocher, J.J.G., et al., A search for evidence of cold
fusion in the direct implantation of palladium and indium with
deuterium. Can. J. Phys., 1989. 67: p. 624.
3. Gu, A.G., et al., Experimental study on cold fusion using
deuterium gas and deuterium ion beam with palladium. J. Fusion Energy,
1990. 9(3): p. 329.
4. Gu, A.G., et al., Preliminary experimental study on cold
fusion using deuterium gas and deuterium plasma in the presence of
palladium. Fusion Technol., 1989. 16: p. 248.
5. Kosyakhkov, A.A., et al., Neutron yield in the deuterium
ion implantation into titanium. Fiz. Tverd. Tela, 1990. 32: p. 3672
(in Russian).
6. Kosyakhkov, A.A., et al., Mass-spectrometric study of
the products of nuclear reactions occurring by ion-plasma saturation
of titanium with deuterium. Dokl. Akad. Nauk. [Tekh. Fiz.), 1990.
312(1): p. 96 (in Russian).
7. Liu, R., et al., Measurement of neutron energy spectra from
the gas discharge facility. Yuanzi Yu Fenzi Wuli Xuebao, 1994. 11(2):
p. 115 (in Chinese).
8. Myers, S.M., et al., Superstoichiometry, accelerated
diffusion, and nuclear reactions in deuterium-implanted palladium.
Phys. Rev. B, 1991. 43: p. 9503.
9. Prelas, M., et al., Cold fusion experiments using
Maxwellian plasmas and sub-atmospheric deuterium gas. J. Fusion
Energy, 1990. 9(3): p. 309.
10. Takahashi, A. Results of experimental studies of excess
heat vs nuclear products correlation and conceivable reaction model.
in The Seventh International Conference on Cold Fusion. 1998.
Vancouver, Canada: ENECO, Inc., Salt Lake City, UT. p. 378-382.
11. Wang, T., et al. Anomalous phenomena in E<18 KeV hydrogen
ion beam implantation experiments on Pd and Ti. in Sixth International
Conference on Cold Fusion, Progress in New Hydrogen Energy. 1996. Lake
Toya, Hokkaido, Japan: New Energy and Industrial Technology
Development Organization, Tokyo Institute of Technology, Tokyo, Japan.
p. 401.
12. McKee, J.S.C., et al. Neutron emission from low-energy
deuteron injection of deuteron-implanted metal foils (Pd, Ti, and In).
in Anomalous Nuclear Effects in Deuterium/Solid Systems, "AIP
Conference Proceedings 228". 1990. Brigham Young Univ., Provo, UT:
American Institute of Physics, New York. p. 275.
13. Isobe, Y., et al. Search for coherent deuteron fusion by
beam and electrolysis experiments. in 8th International Conference on
Cold Fusion. 2000. Lerici (La Spezia), Italy: Italian Physical
Society, Bologna, Italy. p. 17-22.
14. Isobe, Y., et al., Search for multibody nuclear reactions in
metal deuteride induced with ion beam and electrolysis methods. Jpn.
J. Appl. Phys., 2002. 41(3): p. 1546-1556.
15. Zelenskii, V.F., et al., Experiments on cold nuclear
fusion in Pd and Ti saturated with deuterium by ion implantation.
Vopr. At. Nauki Tekh. Ser.: Fiz. Radiats. Povr. Radiats.
Materialoved., 1990. 52(1): p. 65 (in Russian).
16. Martynov, M.I., A.I. Mel'dianov, and A.M. Chepovskii,
Experiments on the detection of nuclear reaction products in
deuterated metals. Vopr. At. Nauki Tekh. Ser.: Termoyader Sintez,
1991(2): p. 77 (in Russian).
17. Matsunaka, M., et al. Studies of coherent deuteron
fusion and related nuclear reactions in solid. in The 9th
International Conference on Cold Fusion, Condensed Matter Nuclear
Science. 2002. Tsinghua Univ., Beijing, China: Tsinghua Univ.,
Beijing, China. p. 237-240.
18. Savvatimova, I.B., G. Savvatimov, and A.A. Kornilova.
Gamma emission evaluation in tungsten irradiated by low energy
deuterium ions. in 8th International Workshop on Anomalies in Hydrogen/
Deuterium Loaded Metals. 2007. Catania, Sicily, Italy: The
International Society for Condensed Matter Science. p. 258.
19. Lipson, A.G., A.S. Roussetski, and G. Miley. Evidence for
condensed matter enhanced nuclear reactions in metals with a high
hydrogen solubility. in International Conference on Condensed Matter
Nuclear Science , ICCF-13. 2007. Sochi, Russia: Tsiolkovsky Moscow
Technical University. p. 248.
On Jan 23, 2013, at 2:07 PM, MarkI-ZeroPoint wrote:
Excellent find Lou!! Much appreciate it!
The abstract for just one section of the book sounds extremely
interesting
and encouraging:
"Our decadal basic research confirmed: Chemonuclear fusion of light
nuclei
in the metallic Li-liquids hold the common mechanism with pycnonuclear
reactions in the metallic-hydrogen liquids in stars e.g. white-dwarf
supernova progenitors. Both reactions are incorporated with the ionic
reactions forming compressed united atoms and induce enormous rate
enhancement caused by the thermodynamic activity of the liquids. For
the
chemonuclear fusion of hydrogen clusters in the Li permeated metal
hydrogen
systems, the rate enhancement of 2x10e44 is expected via coherent
collapse
of hydrogen-hydrogen bonds. Chemonuclear fusion releases a power
over one
million times as dense as the solar interior power density in the
metal
hydrogen systems, e.g a 1-mole NiH system is capable of some kW
output. The
fusion is followed by the successive reactions mostly with Li metal."
Some key phrases:
- "forming compressed united atoms" [me: perhaps support for
hydrinos?]
- "induce enormous rate enhancement"
- "rate enhancement of 2x10e44 is expected"
- "Chemonuclear fusion releases a power over one million times as
dense as
the solar interior"
- "1-mole NiH system is capable of some kW output"
Can't wait to read the whole book!
-Mark Iverson
-----Original Message-----
From: pagnu...@htdconnect.com [mailto:pagnu...@htdconnect.com]
Sent: Wednesday, January 23, 2013 11:41 AM
To: vortex-l@eskimo.com
Subject: [Vo]:Chemonuclear Transitions
Courtesy of http://lenrnews.eu --
The Svedberg Laboratory of Uppsala U. in Sweden recently published -
"THE NATURE OF THE CHEMONUCLEAR TRANSITION" - Hidetsugu Ikegami
http://www.tsl.uu.se/digitalAssets/142/142245_tsl-note-2012-61.pdf
- in which the author proposes that in some environments s-orbital
electron
dynamics greatly enhance certain fission and fusion reactions.
{{ EXTRACT: The Nature of the Chemonuclear Transition
In any nuclear transition undergoing gently compared to atomic
transitions, e.g. nuclear collisions, in its turn, nuclear fusion or
fusion reactions going on more slowly than the gyration speed of
electrons ZvB in the 1s-orbital of reactant atoms, the electrons
adjust
their electronic states continuously and smoothly to the nuclear
transitions or reactions. Here Z and vB denote the atomic number of
reactant atoms/nuclei colliding with light ions and Bohr speed
respectively. Thereby united nuclear and atomic transitions are
likely
to take place. In fact such united transitions have been observed in
the united atom formation in the high energy heavy ion collision
experiments through detecting the characteristic X-rays of united
atoms
in which pairs of colliding nuclei coexist at the center of common
1s-electron orbitals [1].}}
-- Lou Pagnucco