| viXra.org > Nuclear and Atomic Physics > 2005 |
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| viXra.org > Nuclear and Atomic Physics > 2005 |
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[4] viXra:2005.0195 [pdf] submitted on 2020-05-19 10:00:01
Authors: Suresh Kumar S
Comments: 6 Pages. Yang mills theory as a homogeneous interaction of QED,relativistic dissipative hydrodynamics conforming to thermodynamics .
Hydrodynamic of vortex flows can explain quark gluon plasma fluid flows as an highly idealized liquid which has transition to a hadronic phase to account for nuclear matter components like protons.The mass of quarks are only in a tiny part derived from the Higgs field mechanisms. Strong forces in the atomic nucleus hold together quarks and gluons in the protons as components of nuclear matter. QCD theories are sought to account for the strong fields and hadron mass.
There are possible correspondence and analogies with quantum hydrodynamic and its conformal thermodynamics,which might explain the mass gap based on turbulence of vortex flows and its shock wave like energy dissipation leading to a thermodynamics and its momentum or mass derivations.
The yang mills theory emerges as an interphase of quantum electrodynamics,vortex hydrodynamics and conformal thermodynamics,so that the nuclear matter and hadronic phase has entropy and information transfers to experience a Higgs like mechanism and phonon modes for self interactions leading to mass and momentum effects.
The mathematical models of Hamilton Jacobi equations for positive and negative mass ensembles approximate to a Stochastic NLSE as a Schrodinger expression derivation of Lindblad master equation for heavy quark QCD or QED models. The negative mass like effects can occur in spin orbit coupled high angular momentum idealized fluids at relativistic limits and quantum limits ,explained by GP equations as NLSE approximations for hydrodynamic plasma vortex flows. The hydrodynamics has analogies with QED,and conform to thermodynamics in the entropic limits,and its dissipative turbulence and fluctuations in energy.
The Higgs like phonon modes are the result of angular momentum and mass or energy distribution and equilibrium processes described by LG Boltzman equations corresponding to Schrodinger equations in the non linear limits.
The self interaction potential can explain mass gap and gluon condensates,and yang mills theory based topological phases with quark hadron transitions and symmetry breaking,that is a combination of the QED,hydrodynamic and thermodynamic energy and mass- momentum transfers,and confining hadronic pressures due to negative mass effects.This paper presents a heuristic model to examine this.
Category: Nuclear and Atomic Physics
[3] viXra:2005.0113 [pdf] submitted on 2020-05-09 13:08:50
Authors: Salvatore Gerard Micheal
Comments: 2 Pages.
a new fundamental physical constant is elucidated
that relates unit-charge to unit-spin, h-sub-c, Hope’s constant
Category: Nuclear and Atomic Physics
[2] viXra:2005.0027 [pdf] submitted on 2020-05-02 08:18:01
Authors: Daehyeon Kang
Comments: 6 Pages.
To explain the fine structure of spectral lines from hydrogen atoms, "the coulomb potential's momentum" was introduced. Since there is no mass and photons made up of electric fields have momentum, the coulomb potentials formed by electric fields also have momentum, and from this perspective, the fine structure of hydrogen is solved.
Category: Nuclear and Atomic Physics
[1] viXra:2005.0013 [pdf] submitted on 2020-05-01 02:42:27
Authors: George Rajna
Comments: 55 Pages.
Hard to believe you can play pool with neutrinos, but certain neutrino interaction events are closer to the game than you think. [22] If it turns out that neutrinos and antineutrinos oscillate in a different way from one another, this may partially account for the present-day matter-antimatter imbalance. [21] Studying this really interesting particle that's all around us, and yet is so hard to measure, that could hold the key to understanding why we're here at all, is exciting-and I get to do this for a living," says Mauger. [20] In the Standard Model of particle physics, elementary particles acquire their masses by interacting with the Higgs field. This process is governed by a delicate mechanism:
Category: Nuclear and Atomic Physics
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