Abstract
Mesons and baryons, according to their rest mass and half-life, show a tendency for de-confinement and re-confinement of energy, contributing to a continuous surge of enthalpy along the primordial chronology. The strong force opposes to the separation of the constitutive quarks of pions, which by self-multiplication, absorb the energy released by decay and pair-annihilation. The 1% of mass apported by quarks requires an additional 99% of energy from this decay to manifest as gluons-hadrons formation. Processes like oscillation neutron-proton and antineutron-antiproton cycles are capable to capture primordial radiation, and may have prevented a Universe immersed into residual gamma radiation.
Highlights
Biophysics has its most distant roots in the characteristics of reaction specificity, within a context of an open system of non-equilibrium thermodynamics
It has been proposed that, if the flow of energy conform an interconnection between dissipative states, this could be applied to a biophysical examination of the selection principle
The energy enters into the thermodynamics system by decay, equivalent to dissipation structures maintaining an open system in non-equilibrium
Summary
Biophysics has its most distant roots in the characteristics of reaction specificity, within a context of an open system of non-equilibrium thermodynamics. The results of high energy physics has been reported elsewhere in terms of the characterization of particles, leaving without exploring integrative parameters between the initial and present states of nature evolution. It has been proposed that, if the flow of energy conform an interconnection between dissipative states, this could be applied to a biophysical examination of the selection principle. This is the reason why the paper characterizes the half-life of particle decay as a dissipative state. The neutrinos are characterized by their role of products which cannot reenter into the system
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