Discovery of Solid Deuterium Nuclear Fusion of Pycnodeuterium-Lumps Solidified Locally Within Nano-Pd Particles

Yoshiaki ARATA; Yue-chang ZHANG; Hiroshi FUJITA; Akihisa INOUE

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Discovery of Solid Deuterium Nuclear Fusion of Pycnodeuterium-Lumps Solidified Locally Within Nano-Pd Particles

机译：纳米钯颗粒内局部凝固的Pynodenodeium团块的固体氘核融合的发现。

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Embedded nano-Pd particles of 5nm instantly absorb abundant D-atoms more than 250% in the atomic ratio against Pd-atoms at room temperature when they are kept in D2 gas pressurized to lOatm. In such ultrahigh densities, 2-4 D-atoms can be solidified inside each octahedral space of Pd lattice (pycnodeuterium-lump). When a stimulation energy such as ultra high energy density beam causing latticequake of metalic lattice was supplied to these highly deuterated Pd particles, caused intense deuterium solid-state nuclear fusion ("solid fusion") , and thus both excess heat and 4He gas were abundantly produced without any hazardous rays. Naturally, these events cannot be realized at all in bulk Pd. Since the solid fusion rises in pycnodeuterium-lumps solidified locally inside the each cell of the host metal lattice, these unit cells correspond to minimum unit of the solid fusion reactor ("Lattice Reactor") . It is concluded that these results clearly showed the starting point of the "practical solid fusion reactor".

机译：在室温下将5nm的纳米Pd埋入D2气体中时，其相对于Pd原子的原子比可立即吸收超过250％的原子比的丰富D-原子。在这样的超高密度下，Pd晶格（pycnodeuterium lump）的每个八面体空间内可以固化2-4个D原子。当向这些高度氘化的Pd粒子提供诸如引起金属晶格晶格地震的超高能量密度束之类的刺激能量时，会引起强烈的氘固核聚变（“固体聚变”），因此多余的热量和4He气体都大量存在产生没有任何有害射线。自然地，这些事件根本无法以批量Pd实现。由于固体熔体在主金属晶格的每个单元内部局部凝固的pycnodeuterium团块中上升，因此这些单位单元对应于固体熔合反应器（“晶格反应器”）的最小单元。结论是，这些结果清楚地表明了“实用的固体聚变反应器”的起点。

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来源
《高温学会志》 |2003年第2期|共5页
作者
Yoshiaki ARATA; Yue-chang ZHANG; Hiroshi FUJITA; Akihisa INOUE;
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正文语种 jpn
中图分类高压与高温物理学;
关键词
DS-cathode; Pycnodeuterium-Lump; Lattice-Reactor; Solid-state Nuclear Fusion; Latticequake; Stimulation Energy;

机译：DS-阴极;积脓性子宫块;晶格反应器;固态核聚变;晶状体;激发能;

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1. Discovery of Solid Deuterium Nuclear Fusion of Pycnodeuterium-Lumps Solidified Locally Within Nano-Pd Particles [J] . Yoshiaki ARATA, Yue-chang ZHANG, Hiroshi FUJITA, 高温学会志 . 2003,第2期

机译：纳米钯颗粒内局部凝固的Pynodenodeium团块的固体氘核融合的发现。
2. Discovery of Solid Deuterium Nuclear Fusion of Pycnodeuterium-Lumps Solidified Locally Within Nano-Pd Particles [J] . Yoshiaki ARATA, Yue-chang ZHANG, Hiroshi FUJITA, 高温学会志 . 2003,第2期

机译：纳米钯颗粒内局部凝固的Pynodenodeium团块的固体氘核融合的发现。
3. Discovery of Solid Deuterium Nuclear Fusion of Pycnodeuterium-Lumps Solidified Locally Within Nano-Pd Particles [J] . Yoshiaki ARATA, Yue-chang ZHANG, Hiroshi FUJITA, 高温学会志 . 2003,第2期

机译：纳米Pd颗粒局部凝固的Pycnodeutium-块状固体氘核融合的发现
4. Picnonuclear Fusion Generated in "Lattice-Reactor" of Metallic Deuterium Lattice within Metal Atom-Clusters [C] . Yoshiaki Arata, Yue Chang Zhang International conference on cold fusion . 2003

机译：金属原子簇内金属氘晶格的“格子反应器”中产生的野猪核融合
5. Seeking the limits of low-temperature nuclear fusion: Sticking in muon-catalyzed fusion, and piezonuclear fusion in deuterium/condensed matter systems [D] . Taylor, Stuart F. 1994

机译：寻求低温核聚变的极限：坚持介子催化聚变，以及氘/浓缩物质系统中的压电核聚变
6. Modeling of hydrogen/deuterium dynamics and heat generation on palladium nanoparticles for hydrogen storage and solid-state nuclear fusion [O] . Katsuaki Tanabe 2016

机译：氢/氘动力学和钯纳米粒子在氢存储和固态核聚变中的生热建模
7. Modeling of hydrogen/deuterium dynamics and heat generation on palladium nanoparticles for hydrogen storage and solid-state nuclear fusion [O] . Katsuaki Tanabe 2016

机译：氢/氘动力学模型和钯纳米粒子的热量产生氢储存和固态核聚变
8. Polarization of Solid Deuterium-Tritium Fuel for Nuclear Fusion [R] . Heeringa, W. 1986

机译：用于核聚变的固态氘 - 氚燃料的极化

Discovery of Solid Deuterium Nuclear Fusion of Pycnodeuterium-Lumps Solidified Locally Within Nano-Pd Particles

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