dorsal/arxiv
View SchemaBemerkungen zur "kalten Fusion"
| Authors | Rainer W. Kuehne |
|---|---|
| Categories | |
| ArXiv ID | physics/0604119 |
| URL | https://arxiv.org/abs/physics/0604119 |
| Journal | "Magazin 2000plus" Vol. 232 (2006) pp. 24 - 31 |
Abstract
Steven Jones et al. reported to have observed nuclear fusion at room temperature. They observed this "cold fusion" by electrolyzing heavy water. Later experiments confirmed these observations. These experiments confirmed the generation of strong electric fields within the deuterided metals. These electric fields accelerate the deuterons to keV energies and allow the observed nuclear fusion. Roman Sioda and I suggested a theoretical description of this nuclear fusion. Our "extended micro hot fusion" scenario explains how nuclear fusion can be generated over a long time within deuterided metals. Moreover we predicted the explosion of large pieces of deuterided metals. This article reviews the "cold fusion" work of Steven Jones et al. and discusses the fracto-fusion scenario. I show that the extended micro hot fusion scenario can explain the observed neutron emissions, neutron bursts, and heat bursts.
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"abstract": "Steven Jones et al. reported to have observed nuclear fusion at room\ntemperature. They observed this \"cold fusion\" by electrolyzing heavy water.\nLater experiments confirmed these observations. These experiments confirmed the\ngeneration of strong electric fields within the deuterided metals. These\nelectric fields accelerate the deuterons to keV energies and allow the observed\nnuclear fusion. Roman Sioda and I suggested a theoretical description of this\nnuclear fusion. Our \"extended micro hot fusion\" scenario explains how nuclear\nfusion can be generated over a long time within deuterided metals. Moreover we\npredicted the explosion of large pieces of deuterided metals. This article\nreviews the \"cold fusion\" work of Steven Jones et al. and discusses the\nfracto-fusion scenario. I show that the extended micro hot fusion scenario can\nexplain the observed neutron emissions, neutron bursts, and heat bursts.",
"arxiv_id": "physics/0604119",
"authors": [
"Rainer W. Kuehne"
],
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"journal_ref": "\"Magazin 2000plus\" Vol. 232 (2006) pp. 24 - 31",
"title": "Bemerkungen zur \"kalten Fusion\"",
"url": "https://arxiv.org/abs/physics/0604119"
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