Macroscopic view of electrified and magnetized interface under long-term evolution of deuterium in 0.1M LiOD -Evaluation of electrode potential and magnetic flux density of electrode/electrolyte interface-
Prc. of the 13th Meeting of Japan CF Research Society
巻, 号, ページ
Vol. 13
pp. 158-167
出版年月
2013年6月4日
出版者
和文:
日本CF研究学会
英文:
Japan CF-Research Society
会議名称
和文:
第13回JCF会議
英文:
JCF13
開催地
和文:
名古屋
英文:
nagoya
アブストラクト
In the cold fusion experiment, there observed vortex patterns on a thick Pd electrode surface during long-term electrolysis in 0.1M LiOD. To understand the peculiar phenomenon, we had proposed N-cycle model, which is composed of four sequential processes including the CF reaction. Supposing that the hypothetical particles mass evolved due to the CF reaction energy, we performed PC numerical simulation to obtain vortices pattern in the simulation space. In the simulation, the electric and magnetic field of the electrode/electrolyte interface play an important role. To evaluate such influences on the CF reaction, we have examined the structures of the electrode/electrolyte interface with and without deuterium bubble formation. More data compilation with respect to the magnetic property and that of the sub-surface layer is required to perform more accurate simulation incorporating the structure of the layer and the influence of the magnetic field.
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