Nuclear and Atomic Physics

1705 Submissions

[7] viXra:1705.0325 [pdf] submitted on 2017-05-21 15:22:44

The Rope Hypothesis

Authors: Bill Gaede
Comments: 14 Pages.

The wave model of light was born in the 17th Century and was quickly abandoned in favor of the old Corpuscular Hypothesis on the strength of Newton’s authority. It flourished again in the 19th Century only to be eclipsed once again by the Corpuscular Hypothesis at the turn of the century. The participants at the 5th Solvay Conference reached a compromise in 1926 and finally merged the wave and the corpuscle into an unfathomable concoction known as ‘wave-packet’. This is the official model today, but now it rests on the authority of Niels Bohr. However, the Wave-Packet Hypothesis is not about architecture. The mathematical establishment has turned the argument upside down and incongruously states that light ‘behaves’ as a wave or as a particle depending on the circumstances. There is, therefore, no formal physical configuration of light in Mathematical Physics that a theorist can challenge. Many in the establishment even argue that a mediator is unnecessary and dispose of one entirely in their talks. We compare the wave, particle, field, and wave-packet models championed by Classical Mechanics, Quantum Mechanics, and General Relativity against the Rope Hypothesis to underscore that a new paradigm has emerged in the centuries-old debate.
Category: Nuclear and Atomic Physics

[6] viXra:1705.0320 [pdf] submitted on 2017-05-21 21:54:46

Collective Low Energy Nuclear Reaction May Cause Overunity in Graneau’s Water Explosion

Authors: Yanming Wei
Comments: 6 pages, 0 figure. DOI: 10.13140/RG.2.2.29478.73286

The Russian scientists D.V. Filippov and L.I. Urutskoev pioneered experimental research and theory exploration and they named such reactions as transformation, or C-LENR (Collective Low Energy Nuclear Reaction). In this paper, I present some comments for the intrinsic mechanism, and at last, my conjecture is proposed for alternative explanation on the overunity phenomenon in Graneau’s water explosion experiment.
Category: Nuclear and Atomic Physics

[5] viXra:1705.0317 [pdf] submitted on 2017-05-22 02:14:41

On the BOSON’S Range of the Weak Nuclear Force

Authors: Antonio Puccini
Comments: 3 Pages.

As known the Weak Nuclear Force (WNF) acts between quarks (Qs) and leptons. The action of the WNF is mediated by highly massive gauge bosons. How does a Q emit such a massive particle, approximately 16.000 or 40.000 times its mass? Who provides so much energy to a up Q or a down Q? However, it must be considered that according to Quantum Mechanics it is possible to loan temporarily some energy, but to a precise and binding condition, established by the Uncertainty Principle: the higher the energy borrowed, the shorter the duration of the loan. Our calculations show that the maximum distance these bosons can travel, i.e. the upper limit of their range, corresponds to 1.54310-15 [cm] for particles W+ and W- and 1.3610-15[cm] for Z° particles.
Category: Nuclear and Atomic Physics

[4] viXra:1705.0280 [pdf] submitted on 2017-05-18 16:45:31

Focused Neutrinos and Alt-Superconductor Catalyzed Betavoltaic Nuclear Reactor

Authors: Yanming Wei
Comments: 6 pages, 3 figures. DOI: 10.13140/RG.2.2.27195.62248

My recent deep researches have fruited many great discoveries and inventions: 1. thermal solar neutrinos can be focused by special heavy metal lens, and the focused neutrinos can catalyze nuclear beta decay in exponential effect. 2. it is possible to mimic superconductor by dyno-capacitor module to cheaply realize same effects but working in room temperature even higher hundreds Celsius degree. By combining above 2 catalysis technologies, we expect to build a powerful high voltage DC betavoltaic nuclear reactor by using Lutetium fuel 176Lu. Although energy density is far less than conventional fission fuel 235U, however it is very clean nuclear energy, because of non-toxic material and no harmful waste.
Category: Nuclear and Atomic Physics

[3] viXra:1705.0279 [pdf] submitted on 2017-05-18 16:48:24

Which Elements Can be Candidates of Concatenating ββ Decay Nuclear Fuel?

Authors: Yanming Wei
Comments: 4 pages. DOI: 10.13140/RG.2.2.33906.50884

With the catalysis of focused neutrinos and other special means, some of those 2β isotopes can be outstood for fuel, provided it becomes possible for 2 sequential events of concatenating β1β2 with total energy Q(β1) + Q(β2) positive balance. This research paper at least proposes molybdenum 100Mo as promising candidate.
Category: Nuclear and Atomic Physics

[2] viXra:1705.0204 [pdf] submitted on 2017-05-12 21:13:03

Possibility Analysis on Energy Breakeven of Z-Pinch & Accelerator-Based Fusions

Authors: Yanming Wei
Comments: 5 pages, 0 figure. DOI: 10.13140/RG.2.2.28394.93125

Energy breakeven is the key to utilize fusion energy. This paper predicts Z-pinch based fusion breakeven is possible in near future as long as it is available of a better pulse DC power supply with high voltage and tremendous current than prior LTD (Linear Transformer Driver), but accelerator-based fusion hopeless forever.
Category: Nuclear and Atomic Physics

[1] viXra:1705.0193 [pdf] replaced on 2017-06-24 03:02:24

Determinative Atom Model

Authors: Wan-Chung Hu
Comments: 19 Pages.

The most accepted atom model currently was proposed by Dr. Bohr and by Dr. Schrodinger and Dr. Dirac subsequently12. However, many phenomenon cannot be explained by Bohr’s atom model. He used Coulomb electric force as the centripetal force to explain the rotation of electrons around nucleus. Another very important basic forces, magnetic force and frame-dragging force (spinity), were neglected and not included in his atom model. In Schrodinger’s atom model, there are problems limiting the formation of correct atom model such as principle of uncertainty, Schrodinger’s cat, and EPR paradox345. In this study, a new determinative atom model is proposed to explain atomic phenomenon and to solve above puzzles.
Category: Nuclear and Atomic Physics