Nuclear and Atomic Physics

1303 Submissions

[4] viXra:1303.0184 [pdf] submitted on 2013-03-25 00:50:21

The Cubic Atomic Model

Authors: Franklin Hu
Comments: 10 Pages.

A new atomic model is described which builds atoms out of alternating protons and electrons. Unlike the currently accepted planetary atomic model developed by Bohr and Rutherford, the nucleus is not a compact sphere of protons and neutrons which are surrounded by a cloud of electrons. Rather, the atoms are built up like Lego bricks into octahedral shapes. These shapes give rise to locations on the atoms for other atoms to dock and form molecules. These shapes also explain many of the observed properties of the atoms such as the observed ionization energies, spectra, fission fragments and the allowed isotopes for an atom. This model eliminates the need for the strong force and significantly simplifies our understanding of how atoms are constructed using only the electrostatic force.
Category: Nuclear and Atomic Physics

[3] viXra:1303.0169 [pdf] replaced on 2019-03-26 08:06:46

Vortex of Light

Authors: Ivo Van Der Rijt
Comments: 29 Pages.

A complete new proposal to all of nuclear physics. It is a starting model of continuous flow within the universe as an explanation to mass,fusion,gravity and time. All feedback will be apreciated as i like to test this model where it is wrong so i can work on it further.
Category: Nuclear and Atomic Physics

[2] viXra:1303.0132 [pdf] submitted on 2013-03-18 02:19:33

On the Estimation of Nuclear Force and Theoretical Mass of Proton

Authors: Kapil Chandra
Comments: 5 Pages.

We proposed a new expression for force to estimate the numerical amount of nuclear force, this is the most fundamental forces of nature and its gives us the theoretical mass of proton and electron, followed by the proton-to-electron mass ratio. Through it, we also determined the size of nucleus, we believe, this work be helpful to understand the evolution of first atom after the Big-Bang
Category: Nuclear and Atomic Physics

[1] viXra:1303.0012 [pdf] submitted on 2013-03-03 04:24:08

A Quark-Independent Description of Confinement

Authors: Nicolae Mazilu
Comments: 21 Pages.

Currently the quantitative description of confinement inside nuclear matter is exclusively limited to computer experiments, mainly on lattices, and concentrating upon calculating the static potential. There is no independent reference for comparison and support of the results, especially when it comes to the quark potential in the continuum limit. Yet, we are entitled to be optimistic, for the basic results of these calculations seem to be correct from an entirely different point of view, suggested by Manton’s geometrization of Skyrme theory. The present work shows the reasons of this point of view, and offers a static potential that might serve as independent reference for comparison and endorsement of any lattice calculations, and in fact of any structural hypotheses of nuclear matter. A historical review of the pertinent key moments in the history of modeling of nuclear matter, as well as an outlook anticipating the necessary future work, close the argument.
Category: Nuclear and Atomic Physics