Localized Nuclear Reactions and Dynamic Casimir Effectin Electrochemical Process
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摘要: 通过CR-39固体径迹探测器、钯阴极的辐射自照相等方法观察到了电解过程中的局域核反应.综合国内外相关研究数据,认为电解过程中,电极尖端处出现的动态Casimir效应,及涡漩运动与零点能相干效应而提取真空能,是电化学异常放热的来源,少量具有滞后和积累效应的、高度定向的极化核反应,可以用具有轴向高能宇宙射线的类星体涡旋模型加以解释.讨论了真空零点电磁涨落和挠场理论,及有关实验现象.利用推出的类星体涡旋模型理论,可以对自然界和实验室中出现的许多异常现象进行解释.Abstract: Localized nuclear activations in electrochemical process have been observed by CR-39 solid detectors, autoradiography and energy dispersion X-ray analysis of Pd cathode electrolyzised in light and heavy water. Nuclear reactions and excess heat in electrolysis process were interpreted by two mechanisms: one is the torsion coherence of vortex dynamics with the zero-point-energy induced by localized intense field emission of micro-protrusion of the cathode; and another is dynamic Casimir effect of transient evolution of gas bubbles. A variety of anomalous phenomena in nature or at laboratories could be explained by the model of quasar vortex structure with extremely high energy cosmic rays.
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Key words:
- electrochemistry /
- zero point energy /
- nuclear reactions
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