Classical Nuclear Model

2010

Nuclear physics studies of fundamental symmetries and neutrino properties have played a vital role in the development and confirmation of the Standard Model of fundamental interactions. With the advent of the CERN Large Hadron Collider, experiments at the high energy frontier promise exciting discoveries about the larger framework in which the Standard Model lies. In this talk, I discuss the complementary opportunities for probing the "new Standard Model" with nuclear physics experiments at the low-energy high precision frontier.

Shining Light on the Standard Model of Nuclear Physics , 2020

Abstract: This paper reviews the effects that Isolation has on modern Nuclear Physics. Starting with the early 20th Century we review the start of specialization in the area of Nuclear Physics. Beginning after Einstein announced his Relativity Theory, Physics started to undertake a Universal search for a better understanding of this Universe. This thirst for knowledge split the focus of research into the following disciplines. Black Hole Physics & Dark Energy Physics Contracting Universe Physics & Expanding Universe Physics And by the 1960’s evolved into the Standard Model based on Quarks & Quantum Mechanics.

The informational model -Nuclear Force, 2023

In this paper the universal model of fundamental interactions (fundamental Nature forces), which was developed in 2007-2023 in framework of the whole informational physical model that is based on the main postulate that everything in Matter exists, happens, interacts, and moves as some specific disturbances in Matter's ultimate base-at the [4+4+1]4D dense lattice of the [4+4+1]4D binary reversible fundamental logical elements [FLE]. Including particles are specific disturbances-close-loop algorithms that cyclically run basing on the FLE "hardware", That was applied at developing of the 2007 initial models of Gravity and Electric forces, and is applied here at developing of the initial model of Nuclear Force. It is shown, that in the case, when the particles, including the nucleons in nuclei, interact on some distances, the action of Nuclear Force is seems practically complete analog of action of Gravity and Electric forces, i.e. the Nuclear Force mediators, "circular mesons", are in the main traits analogs of Gravity and Electric forces mediators "circular gravitons/photons", also are propagating in the lattice as specific disturbances that are initiated by specific parts of particles' algorithms' FLEs "Forces charges". In contrast to particles, at propagating in the lattice mediators don't carry energy, while carry the universal for all Forces elementary momentums p=h-bar/r, r is distance between particles, which is transmitted to other particles. In contrast to the mediation of Forces in standard physical theories, all mediators are completely real, and by no means "virtual", FLE structures in Matter. The developed model is in accordance with existent nuclear physics experimental data.

NUCLEAR AND PARTICLE PHYSICS AN INTRODUCTION, 2021

The purpose of the following study is to build up a nucleus model – based on the symmetries of atomic shell – where the density of nucleons is constant. And which gives enough space for zero point quantum motion in a way that the collision of identical particles is excluded. Electrons flowing as superfluids in supraconductive crystals are suitable analogies. Its condition, the most symmetric cubic lattice can be realized by the strict self-organization and harmonized movement of nucleons. Continuing with the process, we will arrive at the magic numbers, the shell structure of nuclei, which logically derive from the above mentioned symmetry. We get a clear explanation of the role classical spin plays in nuclear physics, and a simple method to describe nuclear spin. Binding energies of certain nuclei can be calculated with proper approach.

Computers in Physics, 1996

2003

viXra, 2014

We place the author’s earlier work from [13], [14], [15], [16], [17], [18], [19], [20], [21] into the context of a classical unified field theory of elementary particle physics, nuclear and hadron physics, electrodynamics, and gravitation. This revision contains the unification of classical Maxwell and Yang-Mills electrodynamics with classical gravitation as represented by the field equation Rμν=0 of empty space, and explains how this will be further connected to the physics of nuclear matter as developed in said earlier work.

2018

Atomic nuclei are normally drawn as a combination of protons and neutrons grouped together as close as possible. Given the enormous repulsive force between two protons such a configuration cannot represent reality. Quantum physics pretends to solve this problem by means of quarks, held together by gluons. This article presents a model without such particles and forces.

International Journal of Modern Physics: Conference Series, 2019

Big Bang Nucleosynthesis (BBN) requires several nuclear physics inputs and nuclear reaction rates. An up-to-date compilation of direct cross sections of [Formula: see text], [Formula: see text]He and [Formula: see text]He reactions is given, being these ones among the most uncertain bare-nucleus cross sections. An intense experimental effort has been carried on in the last decade to apply the Trojan Horse Method (THM) to study reactions of relevance for the BBN and measure their astrophysical S(E)-factor. The reaction rates and the relative error for the four reactions of interest are then numerically calculated in the temperature ranges of relevance for BBN [Formula: see text]. These value were then used as input physics for primordial nucleosynthesis calculations in order to evaluate their impact on the calculated primordial abundances and isotopical composition for H, He and Li. New results on the [Formula: see text]He reaction rate were also taken into account.These were compare...